diff --git a/ChangeLog b/ChangeLog index a21c2a666..26f2e3fa2 100644 --- a/ChangeLog +++ b/ChangeLog @@ -1,283 +1,284 @@ -----2.8 ----- * [macOS] added support for touchbar * Show the size of the members in the JSON file in the import file dialog * [worksheet] In the Export Worksheet Dialog allow to export to the clipboard * [worksheet] Allow to move plots, text labels and legend with arrow keys * [worksheet] Image worksheet element + * [worksheet] Reference line on the plot -----2.7 (24.10.2019)----- 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) * In "Used in" context menu of a column show all other calculated columns where this column is used as a variable * [spreadsheet] when pasting data into empty columns, automatically convert their type to the type of the data to be pasted * 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) * When auto-scaling in the plot take also the error bars into account, if available * For live data sources allow to save the relative path to the data source 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 * Added translations to Windows and macOS packages * Allow to stop the current selection in the plot with ESC * BUG 410855 - Seed the random number generator with the current time in order not to generate repetitive numbers in the spreadsheet. 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 * Bug 411122 - fixed missing option for the resolution of PNG files in the export dialog * [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 (19.04.2019)----- 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 (21.06.2018)----- 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 (09.04.2017)----- 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 (23.07.2016)----- 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 (29.03.2016)----- 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 (25.10.2015)----- 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 (15.03.2015)----- 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 (01.03.2014)----- 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 (19.01.2014)----- 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/CMakeLists.txt b/src/CMakeLists.txt index 7e7c2686e..c3eeca214 100644 --- a/src/CMakeLists.txt +++ b/src/CMakeLists.txt @@ -1,509 +1,511 @@ find_package(SharedMimeInfo REQUIRED) set(KDE_FRONTEND true) set(KDEFRONTEND_DIR kdefrontend) set(BACKEND_DIR backend) set(COMMONFRONTEND_DIR commonfrontend) set(CANTOR_DIR cantor) set(TOOLS_DIR tools) set(CMAKE_AUTOMOC ON) set(SRC_BUILD_DIR ${CMAKE_CURRENT_BINARY_DIR} PARENT_SCOPE) # do not process this file set_property(SOURCE gsl_parser.h PROPERTY SKIP_AUTOMOC ON) set(GUI_SOURCES ${KDEFRONTEND_DIR}/GuiObserver.cpp ${KDEFRONTEND_DIR}/GuiTools.cpp ${KDEFRONTEND_DIR}/HistoryDialog.cpp ${KDEFRONTEND_DIR}/MainWin.cpp ${KDEFRONTEND_DIR}/SettingsDialog.cpp ${KDEFRONTEND_DIR}/SettingsGeneralPage.cpp ${KDEFRONTEND_DIR}/SettingsWorksheetPage.cpp ${KDEFRONTEND_DIR}/SettingsPage.h ${KDEFRONTEND_DIR}/TemplateHandler.cpp ${KDEFRONTEND_DIR}/ThemeHandler.cpp ${KDEFRONTEND_DIR}/datasources/AsciiOptionsWidget.cpp ${KDEFRONTEND_DIR}/datasources/BinaryOptionsWidget.cpp ${KDEFRONTEND_DIR}/datasources/DatabaseManagerDialog.cpp ${KDEFRONTEND_DIR}/datasources/DatabaseManagerWidget.cpp ${KDEFRONTEND_DIR}/datasources/HDF5OptionsWidget.cpp ${KDEFRONTEND_DIR}/datasources/FileInfoDialog.cpp ${KDEFRONTEND_DIR}/datasources/ImageOptionsWidget.cpp ${KDEFRONTEND_DIR}/datasources/ImportDialog.cpp ${KDEFRONTEND_DIR}/datasources/ImportFileWidget.cpp ${KDEFRONTEND_DIR}/datasources/ImportFileDialog.cpp ${KDEFRONTEND_DIR}/datasources/ImportProjectDialog.cpp ${KDEFRONTEND_DIR}/datasources/ImportSQLDatabaseDialog.cpp ${KDEFRONTEND_DIR}/datasources/ImportSQLDatabaseWidget.cpp ${KDEFRONTEND_DIR}/datasources/NetCDFOptionsWidget.cpp ${KDEFRONTEND_DIR}/datasources/ROOTOptionsWidget.cpp ${KDEFRONTEND_DIR}/datasources/FITSOptionsWidget.cpp ${KDEFRONTEND_DIR}/datasources/JsonOptionsWidget.cpp ${KDEFRONTEND_DIR}/dockwidgets/BaseDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/AxisDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/CursorDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/ImageDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/NoteDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/CartesianPlotDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/CartesianPlotLegendDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/HistogramDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/CustomPointDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/ColumnDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/LiveDataDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/MatrixDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/ProjectDock.cpp + ${KDEFRONTEND_DIR}/dockwidgets/ReferenceLineDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/SpreadsheetDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYEquationCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYDataReductionCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYDifferentiationCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYIntegrationCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYInterpolationCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYSmoothCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYFitCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYFourierFilterCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYFourierTransformCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYConvolutionCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/XYCorrelationCurveDock.cpp ${KDEFRONTEND_DIR}/dockwidgets/WorksheetDock.cpp ${KDEFRONTEND_DIR}/matrix/MatrixFunctionDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/PlotDataDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/EquidistantValuesDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/ExportSpreadsheetDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/AddSubtractValueDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/DropValuesDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/FunctionValuesDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/RandomValuesDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/SortDialog.cpp ${KDEFRONTEND_DIR}/spreadsheet/StatisticsDialog.cpp ${KDEFRONTEND_DIR}/worksheet/ExportWorksheetDialog.cpp ${KDEFRONTEND_DIR}/worksheet/GridDialog.cpp ${KDEFRONTEND_DIR}/worksheet/DynamicPresenterWidget.cpp ${KDEFRONTEND_DIR}/worksheet/PresenterWidget.cpp ${KDEFRONTEND_DIR}/worksheet/SlidingPanel.cpp ${KDEFRONTEND_DIR}/widgets/ConstantsWidget.cpp ${KDEFRONTEND_DIR}/widgets/ThemesComboBox.cpp ${KDEFRONTEND_DIR}/widgets/ThemesWidget.cpp ${KDEFRONTEND_DIR}/widgets/ExpressionTextEdit.cpp ${KDEFRONTEND_DIR}/widgets/FitOptionsWidget.cpp ${KDEFRONTEND_DIR}/widgets/FitParametersWidget.cpp ${KDEFRONTEND_DIR}/widgets/FunctionsWidget.cpp ${KDEFRONTEND_DIR}/widgets/LabelWidget.cpp ${KDEFRONTEND_DIR}/widgets/DatapickerImageWidget.cpp ${KDEFRONTEND_DIR}/widgets/DatapickerCurveWidget.cpp ${KDEFRONTEND_DIR}/widgets/FITSHeaderEditWidget.cpp ${KDEFRONTEND_DIR}/widgets/FITSHeaderEditNewKeywordDialog.cpp ${KDEFRONTEND_DIR}/widgets/FITSHeaderEditAddUnitDialog.cpp ${KDEFRONTEND_DIR}/widgets/FITSHeaderEditDialog.cpp ${KDEFRONTEND_DIR}/widgets/ResizableTextEdit.cpp ) if (Qt5Mqtt_FOUND) list(APPEND GUI_SOURCES ${KDEFRONTEND_DIR}/datasources/MQTTConnectionManagerWidget.cpp) list(APPEND GUI_SOURCES ${KDEFRONTEND_DIR}/datasources/MQTTConnectionManagerDialog.cpp) list(APPEND GUI_SOURCES ${KDEFRONTEND_DIR}/datasources/MQTTErrorWidget.cpp) list(APPEND GUI_SOURCES ${KDEFRONTEND_DIR}/datasources/MQTTSubscriptionWidget.cpp) list(APPEND GUI_SOURCES ${KDEFRONTEND_DIR}/widgets/MQTTWillSettingsWidget.cpp) endif() if(APPLE) list(APPEND GUI_SOURCES ${KDEFRONTEND_DIR}/worksheet/PresenterWidget_mac.mm) list(APPEND GUI_SOURCES ${KDEFRONTEND_DIR}/worksheet/DynamicPresenterWidget_mac.mm) endif() set(UI_SOURCES ${KDEFRONTEND_DIR}/ui/constantswidget.ui ${KDEFRONTEND_DIR}/ui/functionswidget.ui ${KDEFRONTEND_DIR}/ui/fitoptionswidget.ui ${KDEFRONTEND_DIR}/ui/fitparameterswidget.ui ${KDEFRONTEND_DIR}/ui/labelwidget.ui ${KDEFRONTEND_DIR}/ui/settingsgeneralpage.ui ${KDEFRONTEND_DIR}/ui/settingsworksheetpage.ui ${KDEFRONTEND_DIR}/ui/settingsprintingpage.ui - ${KDEFRONTEND_DIR}/ui/datasources/asciioptionswidget.ui ${KDEFRONTEND_DIR}/ui/datasources/binaryoptionswidget.ui ${KDEFRONTEND_DIR}/ui/datasources/databasemanagerwidget.ui ${KDEFRONTEND_DIR}/ui/datasources/hdf5optionswidget.ui ${KDEFRONTEND_DIR}/ui/datasources/imageoptionswidget.ui ${KDEFRONTEND_DIR}/ui/datasources/importfilewidget.ui ${KDEFRONTEND_DIR}/ui/datasources/importprojectwidget.ui ${KDEFRONTEND_DIR}/ui/datasources/importsqldatabasewidget.ui ${KDEFRONTEND_DIR}/ui/datasources/netcdfoptionswidget.ui ${KDEFRONTEND_DIR}/ui/datasources/rootoptionswidget.ui ${KDEFRONTEND_DIR}/ui/datasources/fitsoptionswidget.ui ${KDEFRONTEND_DIR}/ui/datasources/jsonoptionswidget.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/axisdock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/cursordock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/cartesianplotdock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/cartesianplotlegenddock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/histogramdock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/columndock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/custompointdock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/imagedock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/livedatadock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/notedock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/matrixdock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/projectdock.ui + ${KDEFRONTEND_DIR}/ui/dockwidgets/referencelinedock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/spreadsheetdock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xycurvedock.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xycurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xydatareductioncurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xydifferentiationcurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xyintegrationcurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xyinterpolationcurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xysmoothcurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xyfitcurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xyfourierfiltercurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xyfouriertransformcurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xyconvolutioncurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xycorrelationcurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/xyequationcurvedockgeneraltab.ui ${KDEFRONTEND_DIR}/ui/dockwidgets/worksheetdock.ui ${KDEFRONTEND_DIR}/ui/matrix/matrixfunctionwidget.ui ${KDEFRONTEND_DIR}/ui/spreadsheet/plotdatawidget.ui ${KDEFRONTEND_DIR}/ui/spreadsheet/equidistantvalueswidget.ui ${KDEFRONTEND_DIR}/ui/spreadsheet/exportspreadsheetwidget.ui ${KDEFRONTEND_DIR}/ui/spreadsheet/addsubtractvaluewidget.ui ${KDEFRONTEND_DIR}/ui/spreadsheet/dropvalueswidget.ui ${KDEFRONTEND_DIR}/ui/spreadsheet/functionvalueswidget.ui ${KDEFRONTEND_DIR}/ui/spreadsheet/randomvalueswidget.ui ${KDEFRONTEND_DIR}/ui/spreadsheet/sortdialogwidget.ui ${KDEFRONTEND_DIR}/ui/worksheet/exportworksheetwidget.ui ${KDEFRONTEND_DIR}/ui/datapickerimagewidget.ui ${KDEFRONTEND_DIR}/ui/datapickercurvewidget.ui ${KDEFRONTEND_DIR}/ui/fitsheadereditwidget.ui ${KDEFRONTEND_DIR}/ui/fitsheadereditnewkeywordwidget.ui ${KDEFRONTEND_DIR}/ui/fitsheadereditaddunitwidget.ui ) if (Qt5Mqtt_FOUND) list(APPEND UI_SOURCES ${KDEFRONTEND_DIR}/ui/datasources/mqttconnectionmanagerwidget.ui) list(APPEND UI_SOURCES ${KDEFRONTEND_DIR}/ui/datasources/mqtterrorwidget.ui) list(APPEND UI_SOURCES ${KDEFRONTEND_DIR}/ui/datasources/mqttsubscriptionwidget.ui) list(APPEND UI_SOURCES ${KDEFRONTEND_DIR}/ui/mqttwillsettingswidget.ui) endif() set(BACKEND_SOURCES ${BACKEND_DIR}/core/Folder.cpp ${BACKEND_DIR}/core/AbstractAspect.cpp ${BACKEND_DIR}/core/AbstractColumn.cpp ${BACKEND_DIR}/core/AbstractColumnPrivate.cpp ${BACKEND_DIR}/core/abstractcolumncommands.cpp ${BACKEND_DIR}/core/AbstractFilter.cpp ${BACKEND_DIR}/core/AbstractSimpleFilter.cpp ${BACKEND_DIR}/core/column/Column.cpp ${BACKEND_DIR}/core/column/ColumnPrivate.cpp ${BACKEND_DIR}/core/column/ColumnStringIO.cpp ${BACKEND_DIR}/core/column/columncommands.cpp ${BACKEND_DIR}/core/Project.cpp ${BACKEND_DIR}/core/AbstractPart.cpp ${BACKEND_DIR}/core/Workbook.cpp ${BACKEND_DIR}/core/AspectTreeModel.cpp ${BACKEND_DIR}/core/datatypes/SimpleCopyThroughFilter.h ${BACKEND_DIR}/core/datatypes/Double2DateTimeFilter.h ${BACKEND_DIR}/core/datatypes/Double2DayOfWeekFilter.h ${BACKEND_DIR}/core/datatypes/Double2IntegerFilter.h ${BACKEND_DIR}/core/datatypes/Double2MonthFilter.h ${BACKEND_DIR}/core/datatypes/Double2StringFilter.cpp ${BACKEND_DIR}/core/datatypes/Integer2DateTimeFilter.h ${BACKEND_DIR}/core/datatypes/Integer2DayOfWeekFilter.h ${BACKEND_DIR}/core/datatypes/Integer2DoubleFilter.h ${BACKEND_DIR}/core/datatypes/Integer2MonthFilter.h ${BACKEND_DIR}/core/datatypes/Integer2StringFilter.h ${BACKEND_DIR}/core/datatypes/String2DayOfWeekFilter.h ${BACKEND_DIR}/core/datatypes/String2DoubleFilter.h ${BACKEND_DIR}/core/datatypes/String2IntegerFilter.h ${BACKEND_DIR}/core/datatypes/String2MonthFilter.h ${BACKEND_DIR}/core/datatypes/String2DateTimeFilter.cpp ${BACKEND_DIR}/core/datatypes/DateTime2DoubleFilter.h ${BACKEND_DIR}/core/datatypes/DateTime2IntegerFilter.h ${BACKEND_DIR}/core/datatypes/DateTime2StringFilter.cpp ${BACKEND_DIR}/core/datatypes/Month2DoubleFilter.h ${BACKEND_DIR}/core/datatypes/Month2IntegerFilter.h ${BACKEND_DIR}/core/datatypes/DayOfWeek2DoubleFilter.h ${BACKEND_DIR}/core/datatypes/DayOfWeek2IntegerFilter.h ${BACKEND_DIR}/core/plugin/PluginLoader.cpp ${BACKEND_DIR}/core/plugin/PluginManager.cpp ${BACKEND_DIR}/datasources/AbstractDataSource.cpp ${BACKEND_DIR}/datasources/LiveDataSource.cpp ${BACKEND_DIR}/datasources/filters/AbstractFileFilter.cpp ${BACKEND_DIR}/datasources/filters/AsciiFilter.cpp ${BACKEND_DIR}/datasources/filters/BinaryFilter.cpp ${BACKEND_DIR}/datasources/filters/HDF5Filter.cpp ${BACKEND_DIR}/datasources/filters/ImageFilter.cpp ${BACKEND_DIR}/datasources/filters/JsonFilter.cpp ${BACKEND_DIR}/datasources/filters/NetCDFFilter.cpp ${BACKEND_DIR}/datasources/filters/NgspiceRawAsciiFilter.cpp ${BACKEND_DIR}/datasources/filters/NgspiceRawBinaryFilter.cpp ${BACKEND_DIR}/datasources/filters/FITSFilter.cpp ${BACKEND_DIR}/datasources/filters/QJsonModel.cpp ${BACKEND_DIR}/datasources/filters/ROOTFilter.cpp ${BACKEND_DIR}/datasources/projects/ProjectParser.cpp ${BACKEND_DIR}/datasources/projects/LabPlotProjectParser.cpp ${BACKEND_DIR}/gsl/ExpressionParser.cpp ${BACKEND_DIR}/matrix/Matrix.cpp ${BACKEND_DIR}/matrix/matrixcommands.cpp ${BACKEND_DIR}/matrix/MatrixModel.cpp ${BACKEND_DIR}/spreadsheet/Spreadsheet.cpp ${BACKEND_DIR}/spreadsheet/SpreadsheetModel.cpp ${BACKEND_DIR}/lib/XmlStreamReader.cpp ${BACKEND_DIR}/note/Note.cpp ${BACKEND_DIR}/worksheet/Image.cpp ${BACKEND_DIR}/worksheet/WorksheetElement.cpp ${BACKEND_DIR}/worksheet/TextLabel.cpp ${BACKEND_DIR}/worksheet/Worksheet.cpp ${BACKEND_DIR}/worksheet/WorksheetElementContainer.cpp ${BACKEND_DIR}/worksheet/WorksheetElementGroup.cpp ${BACKEND_DIR}/worksheet/TreeModel.cpp ${BACKEND_DIR}/worksheet/plots/AbstractPlot.cpp ${BACKEND_DIR}/worksheet/plots/AbstractCoordinateSystem.cpp ${BACKEND_DIR}/worksheet/plots/PlotArea.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/Axis.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/CartesianCoordinateSystem.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/CartesianPlot.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/CartesianPlotLegend.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/Histogram.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/CustomPoint.cpp + ${BACKEND_DIR}/worksheet/plots/cartesian/ReferenceLine.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/Symbol.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYAnalysisCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYEquationCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYDataReductionCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYDifferentiationCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYIntegrationCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYInterpolationCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYSmoothCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYFitCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYFourierFilterCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYFourierTransformCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYConvolutionCurve.cpp ${BACKEND_DIR}/worksheet/plots/cartesian/XYCorrelationCurve.cpp ${BACKEND_DIR}/lib/SignallingUndoCommand.cpp ${BACKEND_DIR}/datapicker/DatapickerPoint.cpp ${BACKEND_DIR}/datapicker/DatapickerImage.cpp ${BACKEND_DIR}/datapicker/Datapicker.cpp ${BACKEND_DIR}/datapicker/Transform.cpp ${BACKEND_DIR}/datapicker/ImageEditor.cpp ${BACKEND_DIR}/datapicker/Segment.cpp ${BACKEND_DIR}/datapicker/Segments.cpp ${BACKEND_DIR}/datapicker/DatapickerCurve.cpp ) if (Qt5Mqtt_FOUND) list(APPEND BACKEND_SOURCES ${KDEFRONTEND_DIR}/widgets/MQTTWillSettingsWidget.cpp) list(APPEND BACKEND_SOURCES ${BACKEND_DIR}/datasources/MQTTClient.cpp) list(APPEND BACKEND_SOURCES ${BACKEND_DIR}/datasources/MQTTSubscription.cpp) list(APPEND BACKEND_SOURCES ${BACKEND_DIR}/datasources/MQTTTopic.cpp) endif() IF (ENABLE_LIBORIGIN) list(APPEND BACKEND_SOURCES ${BACKEND_DIR}/datasources/projects/OriginProjectParser.cpp) ENDIF () set(NSL_SOURCES ${BACKEND_DIR}/nsl/nsl_conv.c ${BACKEND_DIR}/nsl/nsl_corr.c ${BACKEND_DIR}/nsl/nsl_dft.c ${BACKEND_DIR}/nsl/nsl_diff.c ${BACKEND_DIR}/nsl/nsl_filter.c ${BACKEND_DIR}/nsl/nsl_fit.c ${BACKEND_DIR}/nsl/nsl_geom.c ${BACKEND_DIR}/nsl/nsl_geom_linesim.c ${BACKEND_DIR}/nsl/nsl_int.c ${BACKEND_DIR}/nsl/nsl_interp.c ${BACKEND_DIR}/nsl/nsl_math.c ${BACKEND_DIR}/nsl/nsl_sf_basic.c ${BACKEND_DIR}/nsl/nsl_sf_kernel.c ${BACKEND_DIR}/nsl/nsl_sf_poly.c ${BACKEND_DIR}/nsl/nsl_sf_stats.c ${BACKEND_DIR}/nsl/nsl_sf_window.c ${BACKEND_DIR}/nsl/nsl_smooth.c ${BACKEND_DIR}/nsl/nsl_sort.c ${BACKEND_DIR}/nsl/nsl_stats.c ) IF (NOT MSVC_FOUND) IF (NOT LIBCERF_FOUND) list(APPEND NSL_SOURCES ${BACKEND_DIR}/nsl/Faddeeva.c ) ENDIF () ENDIF () set(COMMONFRONTEND_SOURCES ${COMMONFRONTEND_DIR}/matrix/MatrixView.cpp ${COMMONFRONTEND_DIR}/note/NoteView.cpp ${COMMONFRONTEND_DIR}/spreadsheet/SpreadsheetCommentsHeaderModel.cpp ${COMMONFRONTEND_DIR}/spreadsheet/SpreadsheetHeaderView.cpp ${COMMONFRONTEND_DIR}/spreadsheet/SpreadsheetItemDelegate.cpp ${COMMONFRONTEND_DIR}/spreadsheet/SpreadsheetView.cpp ${COMMONFRONTEND_DIR}/workbook/WorkbookView.cpp ${COMMONFRONTEND_DIR}/worksheet/WorksheetView.cpp ${COMMONFRONTEND_DIR}/ProjectExplorer.cpp ${COMMONFRONTEND_DIR}/core/PartMdiView.cpp ${COMMONFRONTEND_DIR}/widgets/TreeViewComboBox.cpp ${COMMONFRONTEND_DIR}/widgets/qxtspanslider.cpp ${COMMONFRONTEND_DIR}/widgets/MemoryWidget.cpp ${COMMONFRONTEND_DIR}/widgets/DateTimeSpinBox.cpp ${COMMONFRONTEND_DIR}/datapicker/DatapickerView.cpp ${COMMONFRONTEND_DIR}/datapicker/DatapickerImageView.cpp ) IF (${Cantor_FOUND}) set(CANTOR_SOURCES ${KDEFRONTEND_DIR}/dockwidgets/CantorWorksheetDock.cpp ${BACKEND_DIR}/cantorWorksheet/VariableParser.cpp ${BACKEND_DIR}/cantorWorksheet/CantorWorksheet.cpp ${COMMONFRONTEND_DIR}/cantorWorksheet/CantorWorksheetView.cpp ) set(CANTOR_UI_SOURCES ${KDEFRONTEND_DIR}/ui/dockwidgets/cantorworksheetdock.ui) set(UI_SOURCES ${UI_SOURCES} ${CANTOR_UI_SOURCES}) ELSE () set(CANTOR_SOURCES "") ENDIF () set(TOOLS_SOURCES ${TOOLS_DIR}/EquationHighlighter.cpp ${TOOLS_DIR}/ImageTools.cpp ${TOOLS_DIR}/TeXRenderer.cpp ) bison_target(GslParser ${BACKEND_DIR}/gsl/parser.y ${CMAKE_CURRENT_BINARY_DIR}/gsl_parser.c ) set(GENERATED_SOURCES ${BISON_GslParser_OUTPUTS} ) set_property(SOURCE gsl_parser.h PROPERTY SKIP_AUTOMOC ON) ############################################################################## INCLUDE_DIRECTORIES( . ${BACKEND_DIR}/gsl ${GSL_INCLUDE_DIR} ) set( LABPLOT_SRCS ${GUI_SOURCES} ) ki18n_wrap_ui( LABPLOT_SRCS ${UI_SOURCES} ) # see also QT_MINIMUM_VERSION add_definitions(-DQT_DISABLE_DEPRECATED_BEFORE=0x50500) # static library add_library( labplot2lib STATIC ${LABPLOT_SRCS} ${BACKEND_SOURCES} ${NSL_SOURCES} ${CANTOR_SOURCES} ${DATASOURCES_SOURCES} ${COMMONFRONTEND_SOURCES} ${TOOLS_SOURCES} ${GENERATED_SOURCES} ${QTMOC_HDRS} ) # set_property(TARGET ${objlib} PROPERTY POSITION_INDEPENDENT_CODE 1) target_link_libraries( labplot2lib KF5::Archive KF5::Completion KF5::ConfigCore KF5::Crash KF5::I18n KF5::IconThemes KF5::KIOCore KF5::KIOFileWidgets KF5::KIOWidgets KF5::TextWidgets KF5::XmlGui Qt5::Svg Qt5::Core Qt5::Network Qt5::PrintSupport Qt5::Sql ${GSL_LIBRARIES} ${GSL_CBLAS_LIBRARIES} ) IF (Qt5SerialPort_FOUND) target_link_libraries( labplot2lib Qt5::SerialPort ) ENDIF () IF (Qt5Mqtt_FOUND) target_link_libraries( labplot2lib Qt5::Mqtt ) ENDIF () IF (KF5SyntaxHighlighting_FOUND) target_link_libraries( labplot2lib KF5::SyntaxHighlighting ) ENDIF () #TODO: KF5::NewStuff IF (Cantor_FOUND) target_link_libraries( labplot2lib Cantor::cantorlibs KF5::Service KF5::Parts) IF (${Cantor_VERSION} VERSION_GREATER "19.11") target_link_libraries( labplot2lib Poppler::Qt5) ENDIF() ENDIF () IF (HDF5_FOUND) target_link_libraries( labplot2lib ${HDF5_LIBRARIES} ) ENDIF () IF (FFTW3_FOUND) target_link_libraries( labplot2lib ${FFTW3_LIBRARIES} ) ENDIF () IF (netCDF_FOUND) target_link_libraries( labplot2lib netcdf ) ENDIF () IF (CFITSIO_FOUND) target_link_libraries( labplot2lib ${CFITSIO_LIBRARIES} ) ENDIF () IF (LIBCERF_FOUND) target_link_libraries( labplot2lib ${LIBCERF_LIBRARY} ) ENDIF () IF (ZLIB_FOUND AND LZ4_FOUND) target_link_libraries( labplot2lib ${ZLIB_LIBRARY} ${LZ4_LIBRARY} ) ENDIF () IF (ENABLE_LIBORIGIN) target_link_libraries( labplot2lib liborigin-static ) ENDIF () IF (WIN32) target_link_libraries( labplot2lib ${PSAPI} ) ENDIF () # icons for the executable and project files on Windows and Mac OS X set(LABPLOT_ICONS ${CMAKE_CURRENT_SOURCE_DIR}/../icons/16-apps-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/32-apps-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/48-apps-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/64-apps-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/128-apps-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/256-apps-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/512-apps-labplot2.png ) set(LML_ICONS ${CMAKE_CURRENT_SOURCE_DIR}/../icons/16-application-x-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/32-application-x-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/48-application-x-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/64-application-x-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/128-application-x-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/256-application-x-labplot2.png ${CMAKE_CURRENT_SOURCE_DIR}/../icons/512-application-x-labplot2.png ) add_subdirectory(3rdparty) # main executable set(LABPLOT_SOURCE ${KDEFRONTEND_DIR}/LabPlot.cpp) # create icon files on WIN/MAC and add icons to the executable IF (${ECM_VERSION} VERSION_GREATER "5.48.0") # creates LABPLOT_ICONS.ico/LABPLOT_ICONS.icns ecm_add_app_icon(LABPLOT_SOURCE ICONS ${LABPLOT_ICONS} OUTFILE_BASENAME LABPLOT_ICONS) ELSE () # creates LABPLOT_SOURCE.ico/LABPLOT_SOURCE.icns ecm_add_app_icon(LABPLOT_SOURCE ICONS ${LABPLOT_ICONS}) ENDIF () # create LML_ICONS.icns on MACOSX IF (APPLE AND ${ECM_VERSION} VERSION_GREATER "5.48.0") ecm_add_app_icon(LABPLOT_SOURCE ICONS ${LML_ICONS} OUTFILE_BASENAME LML_ICONS) ENDIF () add_executable(labplot2 ${LABPLOT_SOURCE}) target_link_libraries(labplot2 labplot2lib) IF (APPLE) target_link_libraries(labplot2 KDMacTouchBar) ENDIF() ############## installation ################################ install( TARGETS labplot2 DESTINATION ${INSTALL_TARGETS_DEFAULT_ARGS} ) install( FILES ${KDEFRONTEND_DIR}/labplot2ui.rc DESTINATION ${KXMLGUI_INSTALL_DIR}/${PROJECT_NAME} ) install( FILES ${KDEFRONTEND_DIR}/splash.png ${KDEFRONTEND_DIR}/labplot2.ico ${CMAKE_CURRENT_SOURCE_DIR}/../icons/application-x-labplot2.ico DESTINATION ${DATA_INSTALL_DIR}/${PROJECT_NAME} ) install( PROGRAMS org.kde.labplot2.desktop DESTINATION ${XDG_APPS_INSTALL_DIR} ) install( FILES labplot2.xml DESTINATION ${XDG_MIME_INSTALL_DIR} ) install( FILES labplot2_themes.knsrc DESTINATION ${CONFIG_INSTALL_DIR} ) update_xdg_mimetypes( ${XDG_MIME_INSTALL_DIR} ) diff --git a/src/backend/core/AbstractAspect.h b/src/backend/core/AbstractAspect.h index 09910adf1..c8cf0ebc5 100644 --- a/src/backend/core/AbstractAspect.h +++ b/src/backend/core/AbstractAspect.h @@ -1,299 +1,300 @@ /*************************************************************************** File : AbstractAspect.h Project : LabPlot -------------------------------------------------------------------- Copyright : (C) 2007-2009 by Tilman Benkert (thzs@gmx.net) Copyright : (C) 2007-2010 by Knut Franke (knut.franke@gmx.de) Copyright : (C) 2011-2015 by Alexander Semke (alexander.semke@web.de) Description : Base class for all objects in a Project. ***************************************************************************/ /*************************************************************************** * * * 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 * * * ***************************************************************************/ #ifndef ABSTRACT_ASPECT_H #define ABSTRACT_ASPECT_H #include #include class AbstractAspectPrivate; class Folder; class Project; class XmlStreamReader; class QDateTime; class QDropEvent; class QIcon; class QMenu; class QUndoCommand; class QUndoStack; class QXmlStreamWriter; /// Information about class inheritance /// enum values are chosen such that @verbatim inherits(base)@endverbatim /// returns true iff the class inherits from @verbatim base@endverbatim. /// /// AspectType is used in GuiObserver to select the correct dock widget. enum class AspectType : quint64 { AbstractAspect = 0, // classes without inheriters AbstractFilter = 0x0100001, DatapickerCurve = 0x0100002, DatapickerPoint = 0x0100004, WorksheetElement = 0x0200000, Axis = 0x0210001, CartesianPlotLegend = 0x0210002, CustomPoint = 0x0210004, Histogram = 0x0210008, PlotArea = 0x0210010, TextLabel = 0x0210020, Image = 0x0210030, + ReferenceLine = 0x0210040, WorksheetElementContainer = 0x0220000, AbstractPlot = 0x0221000, CartesianPlot = 0x0221001, WorksheetElementGroup = 0x0222000, XYCurve = 0x0240000, XYEquationCurve = 0x0240001, XYAnalysisCurve = 0x0280000, XYConvolution = 0x0280001, XYCorrelationCurve = 0x0280002, XYDataReductionCurve = 0x0280004, XYDifferentiationCurve = 0x0280008, XYFitCurve = 0x0280010, XYFourierFilterCurve = 0x0280020, XYFourierTransformCurve = 0x0280040, XYInterpolationCurve = 0x0280080, XYIntegrationCurve = 0x0280100, XYSmoothCurve = 0x0280200, AbstractPart = 0x0400000, AbstractDataSource = 0x0410000, Matrix = 0x0411000, Spreadsheet = 0x0412000, LiveDataSource = 0x0412001, MQTTTopic = 0x0412002, CantorWorksheet = 0x0420001, Datapicker = 0x0420002, DatapickerImage = 0x0420004, Note = 0x0420008, Workbook = 0x0420010, Worksheet = 0x0420020, AbstractColumn = 0x1000000, Column = 0x1000001, SimpleFilterColumn = 0x1000002, ColumnStringIO = 0x1000004, Folder = 0x2000000, Project = 0x2000001, MQTTClient = 0x2000002, MQTTSubscription = 0x2000004, }; class AbstractAspect : public QObject { Q_OBJECT public: enum ChildIndexFlag { IncludeHidden = 0x01, Recursive = 0x02, Compress = 0x04 }; Q_DECLARE_FLAGS(ChildIndexFlags, ChildIndexFlag) friend class AspectChildAddCmd; friend class AspectChildRemoveCmd; friend class AbstractAspectPrivate; AbstractAspect(const QString& name, AspectType type); ~AbstractAspect() override; QString name() const; QString comment() const; void setCreationTime(const QDateTime&); QDateTime creationTime() const; virtual Project* project(); virtual QString path() const; void setHidden(bool); bool hidden() const; void setSelected(bool); void setIsLoading(bool); bool isLoading() const; virtual QIcon icon() const; virtual QMenu* createContextMenu(); AspectType type() const; bool inherits(AspectType type) const; //functions related to the handling of the tree-like project structure AbstractAspect* parentAspect() const; AbstractAspect* parent(AspectType type) const; void setParentAspect(AbstractAspect*); Folder* folder(); bool isDescendantOf(AbstractAspect* other); void addChild(AbstractAspect*); void addChildFast(AbstractAspect*); virtual void finalizeAdd() {}; QVector children(AspectType type, ChildIndexFlags flags=nullptr) const; void insertChildBefore(AbstractAspect* child, AbstractAspect* before); void insertChildBeforeFast(AbstractAspect* child, AbstractAspect* before); void reparent(AbstractAspect* newParent, int newIndex = -1); void removeChild(AbstractAspect*); void removeAllChildren(); virtual QVector dependsOn() const; virtual bool isDraggable() const; virtual QVector dropableOn() const; virtual void processDropEvent(QDropEvent*) {}; template T* ancestor() const { AbstractAspect* parent = parentAspect(); while (parent) { T* ancestorAspect = dynamic_cast(parent); if (ancestorAspect) return ancestorAspect; parent = parent->parentAspect(); } return nullptr; } template QVector children(ChildIndexFlags flags = nullptr) const { QVector result; for (auto* child: children()) { if (flags & IncludeHidden || !child->hidden()) { T* i = dynamic_cast(child); if (i) result << i; if (child && flags & Recursive) result << child->template children(flags); } } return result; } template T* child(int index, ChildIndexFlags flags=nullptr) const { int i = 0; for (auto* child: children()) { T* c = dynamic_cast(child); if (c && (flags & IncludeHidden || !child->hidden()) && index == i++) return c; } return nullptr; } template T* child(const QString& name) const { for (auto* child: children()) { T* c = dynamic_cast(child); if (c && child->name() == name) return c; } return nullptr; } template int childCount(ChildIndexFlags flags = nullptr) const { int result = 0; for (auto* child: children()) { T* i = dynamic_cast(child); if (i && (flags & IncludeHidden || !child->hidden())) result++; } return result; } template int indexOfChild(const AbstractAspect* child, ChildIndexFlags flags = nullptr) const { int index = 0; for (auto* c: children()) { if (child == c) return index; T* i = dynamic_cast(c); if (i && (flags & IncludeHidden || !c->hidden())) index++; } return -1; } //undo/redo related functions void setUndoAware(bool); virtual QUndoStack* undoStack() const; void exec(QUndoCommand*); void exec(QUndoCommand* command, const char* preChangeSignal, const char* postChangeSignal, QGenericArgument val0 = QGenericArgument(), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument()); void beginMacro(const QString& text); void endMacro(); //save/load virtual void save(QXmlStreamWriter*) const = 0; virtual bool load(XmlStreamReader*, bool preview) = 0; protected: void info(const QString& text) { emit statusInfo(text); } //serialization/deserialization bool readBasicAttributes(XmlStreamReader*); void writeBasicAttributes(QXmlStreamWriter*) const; void writeCommentElement(QXmlStreamWriter*) const; bool readCommentElement(XmlStreamReader*); const AspectType m_type; private: AbstractAspectPrivate* d; QString uniqueNameFor(const QString&) const; const QVector children() const; void connectChild(AbstractAspect*); public slots: bool setName(const QString&, bool autoUnique = true); void setComment(const QString&); void remove(); protected slots: virtual void childSelected(const AbstractAspect*); virtual void childDeselected(const AbstractAspect*); signals: void aspectDescriptionAboutToChange(const AbstractAspect*); void aspectDescriptionChanged(const AbstractAspect*); void aspectAboutToBeAdded(const AbstractAspect* parent, const AbstractAspect* before, const AbstractAspect* child); void aspectAdded(const AbstractAspect*); void aspectAboutToBeRemoved(const AbstractAspect*); void aspectRemoved(const AbstractAspect* parent, const AbstractAspect* before, const AbstractAspect* child); void aspectHiddenAboutToChange(const AbstractAspect*); void aspectHiddenChanged(const AbstractAspect*); void statusInfo(const QString&); void renameRequested(); //selection/deselection in model (project explorer) void selected(const AbstractAspect*); void deselected(const AbstractAspect*); //selection/deselection in view void childAspectSelectedInView(const AbstractAspect*); void childAspectDeselectedInView(const AbstractAspect*); }; Q_DECLARE_OPERATORS_FOR_FLAGS(AbstractAspect::ChildIndexFlags) #endif // ifndef ABSTRACT_ASPECT_H diff --git a/src/backend/worksheet/plots/cartesian/CartesianPlot.cpp b/src/backend/worksheet/plots/cartesian/CartesianPlot.cpp index a17291a1c..cc84b09ae 100644 --- a/src/backend/worksheet/plots/cartesian/CartesianPlot.cpp +++ b/src/backend/worksheet/plots/cartesian/CartesianPlot.cpp @@ -1,3980 +1,3998 @@ /*************************************************************************** File : CartesianPlot.cpp Project : LabPlot Description : Cartesian plot -------------------------------------------------------------------- - Copyright : (C) 2011-2018 by Alexander Semke (alexander.semke@web.de) + Copyright : (C) 2011-2020 by Alexander Semke (alexander.semke@web.de) Copyright : (C) 2016-2018 by Stefan Gerlach (stefan.gerlach@uni.kn) Copyright : (C) 2017-2018 by Garvit Khatri (garvitdelhi@gmail.com) ***************************************************************************/ /*************************************************************************** * * * 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 "CartesianPlot.h" #include "CartesianPlotPrivate.h" #include "Axis.h" #include "XYCurve.h" #include "Histogram.h" #include "XYEquationCurve.h" #include "XYDataReductionCurve.h" #include "XYDifferentiationCurve.h" #include "XYIntegrationCurve.h" #include "XYInterpolationCurve.h" #include "XYSmoothCurve.h" #include "XYFitCurve.h" #include "XYFourierFilterCurve.h" #include "XYFourierTransformCurve.h" #include "XYConvolutionCurve.h" #include "XYCorrelationCurve.h" #include "backend/core/Project.h" #include "backend/core/datatypes/DateTime2StringFilter.h" #include "backend/spreadsheet/Spreadsheet.h" #include "backend/worksheet/plots/cartesian/CartesianPlotLegend.h" #include "backend/worksheet/plots/cartesian/CustomPoint.h" +#include "backend/worksheet/plots/cartesian/ReferenceLine.h" #include "backend/worksheet/plots/PlotArea.h" #include "backend/worksheet/plots/AbstractPlotPrivate.h" #include "backend/worksheet/Worksheet.h" #include "backend/worksheet/plots/cartesian/Axis.h" #include "backend/worksheet/Image.h" #include "backend/worksheet/TextLabel.h" #include "backend/lib/XmlStreamReader.h" #include "backend/lib/commandtemplates.h" #include "backend/lib/macros.h" #include "backend/lib/trace.h" #include "kdefrontend/spreadsheet/PlotDataDialog.h" //for PlotDataDialog::AnalysisAction. TODO: find a better place for this enum. #include "kdefrontend/ThemeHandler.h" #include "kdefrontend/widgets/ThemesWidget.h" #include #include #include #include #include #include #include #include #include #include #include #include /** * \class CartesianPlot * \brief A xy-plot. * * */ CartesianPlot::CartesianPlot(const QString &name) : AbstractPlot(name, new CartesianPlotPrivate(this), AspectType::CartesianPlot) { init(); } CartesianPlot::CartesianPlot(const QString &name, CartesianPlotPrivate *dd) : AbstractPlot(name, dd, AspectType::CartesianPlot) { init(); } CartesianPlot::~CartesianPlot() { if (m_menusInitialized) { delete addNewMenu; delete zoomMenu; delete themeMenu; } delete m_coordinateSystem; //don't need to delete objects added with addChild() //no need to delete the d-pointer here - it inherits from QGraphicsItem //and is deleted during the cleanup in QGraphicsScene } /*! initializes all member variables of \c CartesianPlot */ void CartesianPlot::init() { Q_D(CartesianPlot); d->cSystem = new CartesianCoordinateSystem(this); m_coordinateSystem = d->cSystem; d->rangeType = CartesianPlot::RangeFree; d->xRangeFormat = CartesianPlot::Numeric; d->yRangeFormat = CartesianPlot::Numeric; d->xRangeDateTimeFormat = "yyyy-MM-dd hh:mm:ss"; d->yRangeDateTimeFormat = "yyyy-MM-dd hh:mm:ss"; d->rangeFirstValues = 1000; d->rangeLastValues = 1000; d->autoScaleX = true; d->autoScaleY = true; d->xScale = ScaleLinear; d->yScale = ScaleLinear; d->xRangeBreakingEnabled = false; d->yRangeBreakingEnabled = false; //the following factor determines the size of the offset between the min/max points of the curves //and the coordinate system ranges, when doing auto scaling //Factor 0 corresponds to the exact match - min/max values of the curves correspond to the start/end values of the ranges. //TODO: make this factor optional. //Provide in the UI the possibility to choose between "exact" or 0% offset, 2%, 5% and 10% for the auto fit option d->autoScaleOffsetFactor = 0.0f; m_plotArea = new PlotArea(name() + " plot area", this); addChildFast(m_plotArea); //Plot title m_title = new TextLabel(this->name() + QLatin1String("- ") + i18n("Title"), TextLabel::PlotTitle); addChild(m_title); m_title->setHidden(true); m_title->setParentGraphicsItem(m_plotArea->graphicsItem()); //offset between the plot area and the area defining the coordinate system, in scene units. d->horizontalPadding = Worksheet::convertToSceneUnits(1.5, Worksheet::Centimeter); d->verticalPadding = Worksheet::convertToSceneUnits(1.5, Worksheet::Centimeter); d->rightPadding = Worksheet::convertToSceneUnits(1.5, Worksheet::Centimeter); d->bottomPadding = Worksheet::convertToSceneUnits(1.5, Worksheet::Centimeter); d->symmetricPadding = true; connect(this, &AbstractAspect::aspectAdded, this, &CartesianPlot::childAdded); connect(this, &AbstractAspect::aspectRemoved, this, &CartesianPlot::childRemoved); graphicsItem()->setFlag(QGraphicsItem::ItemIsMovable, true); graphicsItem()->setFlag(QGraphicsItem::ItemClipsChildrenToShape, true); graphicsItem()->setFlag(QGraphicsItem::ItemIsSelectable, true); graphicsItem()->setFlag(QGraphicsItem::ItemSendsGeometryChanges, true); graphicsItem()->setFlag(QGraphicsItem::ItemIsFocusable, true); //theme is not set at this point, initialize the color palette with default colors this->setColorPalette(KConfig()); } /*! initializes all children of \c CartesianPlot and setups a default plot of type \c type with a plot title. */ void CartesianPlot::initDefault(Type type) { Q_D(CartesianPlot); switch (type) { case FourAxes: { d->xMin = 0.0; d->xMax = 1.0; d->yMin = 0.0; d->yMax = 1.0; //Axes Axis* axis = new Axis("x axis 1", Axis::AxisHorizontal); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisBottom); axis->setStart(0); axis->setEnd(1); axis->setMajorTicksDirection(Axis::ticksIn); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksIn); axis->setMinorTicksNumber(1); QPen pen = axis->majorGridPen(); pen.setStyle(Qt::SolidLine); axis->setMajorGridPen(pen); pen = axis->minorGridPen(); pen.setStyle(Qt::DotLine); axis->setMinorGridPen(pen); axis->setSuppressRetransform(false); axis = new Axis("x axis 2", Axis::AxisHorizontal); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisTop); axis->setStart(0); axis->setEnd(1); axis->setMajorTicksDirection(Axis::ticksIn); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksIn); axis->setMinorTicksNumber(1); pen = axis->minorGridPen(); pen.setStyle(Qt::NoPen); axis->setMajorGridPen(pen); pen = axis->minorGridPen(); pen.setStyle(Qt::NoPen); axis->setMinorGridPen(pen); axis->setLabelsPosition(Axis::NoLabels); axis->title()->setText(QString()); axis->setSuppressRetransform(false); axis = new Axis("y axis 1", Axis::AxisVertical); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisLeft); axis->setStart(0); axis->setEnd(1); axis->setMajorTicksDirection(Axis::ticksIn); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksIn); axis->setMinorTicksNumber(1); pen = axis->majorGridPen(); pen.setStyle(Qt::SolidLine); axis->setMajorGridPen(pen); pen = axis->minorGridPen(); pen.setStyle(Qt::DotLine); axis->setMinorGridPen(pen); axis->setSuppressRetransform(false); axis = new Axis("y axis 2", Axis::AxisVertical); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisRight); axis->setStart(0); axis->setEnd(1); axis->setOffset(1); axis->setMajorTicksDirection(Axis::ticksIn); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksIn); axis->setMinorTicksNumber(1); pen = axis->minorGridPen(); pen.setStyle(Qt::NoPen); axis->setMajorGridPen(pen); pen = axis->minorGridPen(); pen.setStyle(Qt::NoPen); axis->setLabelsPosition(Axis::NoLabels); axis->title()->setText(QString()); axis->setSuppressRetransform(false); break; } case TwoAxes: { d->xMin = 0.0; d->xMax = 1.0; d->yMin = 0.0; d->yMax = 1.0; Axis* axis = new Axis("x axis 1", Axis::AxisHorizontal); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisBottom); axis->setStart(0); axis->setEnd(1); axis->setMajorTicksDirection(Axis::ticksBoth); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksBoth); axis->setMinorTicksNumber(1); axis->setArrowType(Axis::FilledArrowSmall); axis->setSuppressRetransform(false); axis = new Axis("y axis 1", Axis::AxisVertical); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisLeft); axis->setStart(0); axis->setEnd(1); axis->setMajorTicksDirection(Axis::ticksBoth); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksBoth); axis->setMinorTicksNumber(1); axis->setArrowType(Axis::FilledArrowSmall); axis->setSuppressRetransform(false); break; } case TwoAxesCentered: { d->xMin = -0.5; d->xMax = 0.5; d->yMin = -0.5; d->yMax = 0.5; d->horizontalPadding = Worksheet::convertToSceneUnits(1.0, Worksheet::Centimeter); d->verticalPadding = Worksheet::convertToSceneUnits(1.0, Worksheet::Centimeter); QPen pen = m_plotArea->borderPen(); pen.setStyle(Qt::NoPen); m_plotArea->setBorderPen(pen); Axis* axis = new Axis("x axis 1", Axis::AxisHorizontal); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisCentered); axis->setStart(-0.5); axis->setEnd(0.5); axis->setMajorTicksDirection(Axis::ticksBoth); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksBoth); axis->setMinorTicksNumber(1); axis->setArrowType(Axis::FilledArrowSmall); axis->title()->setText(QString()); axis->setSuppressRetransform(false); axis = new Axis("y axis 1", Axis::AxisVertical); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisCentered); axis->setStart(-0.5); axis->setEnd(0.5); axis->setMajorTicksDirection(Axis::ticksBoth); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksBoth); axis->setMinorTicksNumber(1); axis->setArrowType(Axis::FilledArrowSmall); axis->title()->setText(QString()); axis->setSuppressRetransform(false); break; } case TwoAxesCenteredZero: { d->xMin = -0.5; d->xMax = 0.5; d->yMin = -0.5; d->yMax = 0.5; d->horizontalPadding = Worksheet::convertToSceneUnits(1.0, Worksheet::Centimeter); d->verticalPadding = Worksheet::convertToSceneUnits(1.0, Worksheet::Centimeter); QPen pen = m_plotArea->borderPen(); pen.setStyle(Qt::NoPen); m_plotArea->setBorderPen(pen); Axis* axis = new Axis("x axis 1", Axis::AxisHorizontal); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisCustom); axis->setOffset(0); axis->setStart(-0.5); axis->setEnd(0.5); axis->setMajorTicksDirection(Axis::ticksBoth); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksBoth); axis->setMinorTicksNumber(1); axis->setArrowType(Axis::FilledArrowSmall); axis->title()->setText(QString()); axis->setSuppressRetransform(false); axis = new Axis("y axis 1", Axis::AxisVertical); axis->setSuppressRetransform(true); addChild(axis); axis->setPosition(Axis::AxisCustom); axis->setOffset(0); axis->setStart(-0.5); axis->setEnd(0.5); axis->setMajorTicksDirection(Axis::ticksBoth); axis->setMajorTicksNumber(6); axis->setMinorTicksDirection(Axis::ticksBoth); axis->setMinorTicksNumber(1); axis->setArrowType(Axis::FilledArrowSmall); axis->title()->setText(QString()); axis->setSuppressRetransform(false); break; } } d->xMinPrev = d->xMin; d->xMaxPrev = d->xMax; d->yMinPrev = d->yMin; d->yMaxPrev = d->yMax; //Geometry, specify the plot rect in scene coordinates. //TODO: Use default settings for left, top, width, height and for min/max for the coordinate system float x = Worksheet::convertToSceneUnits(2, Worksheet::Centimeter); float y = Worksheet::convertToSceneUnits(2, Worksheet::Centimeter); float w = Worksheet::convertToSceneUnits(10, Worksheet::Centimeter); float h = Worksheet::convertToSceneUnits(10, Worksheet::Centimeter); //all plot children are initialized -> set the geometry of the plot in scene coordinates. d->rect = QRectF(x,y,w,h); d->retransform(); } void CartesianPlot::initActions() { //"add new" actions addCurveAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("xy-curve"), this); addHistogramAction = new QAction(QIcon::fromTheme("view-object-histogram-linear"), i18n("Histogram"), this); addEquationCurveAction = new QAction(QIcon::fromTheme("labplot-xy-equation-curve"), i18n("xy-curve from a mathematical Equation"), this); // no icons yet addDataReductionCurveAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("Data Reduction"), this); addDifferentiationCurveAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("Differentiation"), this); addIntegrationCurveAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("Integration"), this); addInterpolationCurveAction = new QAction(QIcon::fromTheme("labplot-xy-interpolation-curve"), i18n("Interpolation"), this); addSmoothCurveAction = new QAction(QIcon::fromTheme("labplot-xy-smoothing-curve"), i18n("Smooth"), this); addFitCurveAction = new QAction(QIcon::fromTheme("labplot-xy-fit-curve"), i18n("Fit"), this); addFourierFilterCurveAction = new QAction(QIcon::fromTheme("labplot-xy-fourier-filter-curve"), i18n("Fourier Filter"), this); addFourierTransformCurveAction = new QAction(QIcon::fromTheme("labplot-xy-fourier-transform-curve"), i18n("Fourier Transform"), this); addConvolutionCurveAction = new QAction(QIcon::fromTheme("labplot-xy-curve"),i18n("(De-)Convolution"), this); addCorrelationCurveAction = new QAction(QIcon::fromTheme("labplot-xy-curve"),i18n("Auto-/Cross-Correlation"), this); addLegendAction = new QAction(QIcon::fromTheme("text-field"), i18n("Legend"), this); if (children().size()>0) addLegendAction->setEnabled(false); //only one legend is allowed -> disable the action addHorizontalAxisAction = new QAction(QIcon::fromTheme("labplot-axis-horizontal"), i18n("Horizontal Axis"), this); addVerticalAxisAction = new QAction(QIcon::fromTheme("labplot-axis-vertical"), i18n("Vertical Axis"), this); addTextLabelAction = new QAction(QIcon::fromTheme("draw-text"), i18n("Text Label"), this); addImageAction = new QAction(QIcon::fromTheme("viewimage"), i18n("Image"), this); addCustomPointAction = new QAction(QIcon::fromTheme("draw-cross"), i18n("Custom Point"), this); + addReferenceLineAction = new QAction(QIcon::fromTheme("draw-line"), i18n("Reference Line"), this); connect(addCurveAction, &QAction::triggered, this, &CartesianPlot::addCurve); connect(addHistogramAction,&QAction::triggered, this, &CartesianPlot::addHistogram); connect(addEquationCurveAction, &QAction::triggered, this, &CartesianPlot::addEquationCurve); connect(addDataReductionCurveAction, &QAction::triggered, this, &CartesianPlot::addDataReductionCurve); connect(addDifferentiationCurveAction, &QAction::triggered, this, &CartesianPlot::addDifferentiationCurve); connect(addIntegrationCurveAction, &QAction::triggered, this, &CartesianPlot::addIntegrationCurve); connect(addInterpolationCurveAction, &QAction::triggered, this, &CartesianPlot::addInterpolationCurve); connect(addSmoothCurveAction, &QAction::triggered, this, &CartesianPlot::addSmoothCurve); connect(addFitCurveAction, &QAction::triggered, this, &CartesianPlot::addFitCurve); connect(addFourierFilterCurveAction, &QAction::triggered, this, &CartesianPlot::addFourierFilterCurve); connect(addFourierTransformCurveAction, &QAction::triggered, this, &CartesianPlot::addFourierTransformCurve); connect(addConvolutionCurveAction, &QAction::triggered, this, &CartesianPlot::addConvolutionCurve); connect(addCorrelationCurveAction, &QAction::triggered, this, &CartesianPlot::addCorrelationCurve); connect(addLegendAction, &QAction::triggered, this, static_cast(&CartesianPlot::addLegend)); connect(addHorizontalAxisAction, &QAction::triggered, this, &CartesianPlot::addHorizontalAxis); connect(addVerticalAxisAction, &QAction::triggered, this, &CartesianPlot::addVerticalAxis); connect(addTextLabelAction, &QAction::triggered, this, &CartesianPlot::addTextLabel); connect(addImageAction, &QAction::triggered, this, &CartesianPlot::addImage); connect(addCustomPointAction, &QAction::triggered, this, &CartesianPlot::addCustomPoint); + connect(addReferenceLineAction, &QAction::triggered, this, &CartesianPlot::addReferenceLine); //Analysis menu actions // addDataOperationAction = new QAction(i18n("Data Operation"), this); addDataReductionAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("Data Reduction"), this); addDifferentiationAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("Differentiate"), this); addIntegrationAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("Integrate"), this); addInterpolationAction = new QAction(QIcon::fromTheme("labplot-xy-interpolation-curve"), i18n("Interpolate"), this); addSmoothAction = new QAction(QIcon::fromTheme("labplot-xy-smoothing-curve"), i18n("Smooth"), this); addConvolutionAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("Convolute/Deconvolute"), this); addCorrelationAction = new QAction(QIcon::fromTheme("labplot-xy-curve"), i18n("Auto-/Cross-Correlation"), this); QAction* fitAction = new QAction(i18n("Linear"), this); fitAction->setData(PlotDataDialog::FitLinear); addFitAction.append(fitAction); fitAction = new QAction(i18n("Power"), this); fitAction->setData(PlotDataDialog::FitPower); addFitAction.append(fitAction); fitAction = new QAction(i18n("Exponential (degree 1)"), this); fitAction->setData(PlotDataDialog::FitExp1); addFitAction.append(fitAction); fitAction = new QAction(i18n("Exponential (degree 2)"), this); fitAction->setData(PlotDataDialog::FitExp2); addFitAction.append(fitAction); fitAction = new QAction(i18n("Inverse exponential"), this); fitAction->setData(PlotDataDialog::FitInvExp); addFitAction.append(fitAction); fitAction = new QAction(i18n("Gauss"), this); fitAction->setData(PlotDataDialog::FitGauss); addFitAction.append(fitAction); fitAction = new QAction(i18n("Cauchy-Lorentz"), this); fitAction->setData(PlotDataDialog::FitCauchyLorentz); addFitAction.append(fitAction); fitAction = new QAction(i18n("Arc Tangent"), this); fitAction->setData(PlotDataDialog::FitTan); addFitAction.append(fitAction); fitAction = new QAction(i18n("Hyperbolic Tangent"), this); fitAction->setData(PlotDataDialog::FitTanh); addFitAction.append(fitAction); fitAction = new QAction(i18n("Error Function"), this); fitAction->setData(PlotDataDialog::FitErrFunc); addFitAction.append(fitAction); fitAction = new QAction(i18n("Custom"), this); fitAction->setData(PlotDataDialog::FitCustom); addFitAction.append(fitAction); addFourierFilterAction = new QAction(QIcon::fromTheme("labplot-xy-fourier-filter-curve"), i18n("Fourier Filter"), this); addFourierTransformAction = new QAction(QIcon::fromTheme("labplot-xy-fourier-transform-curve"), i18n("Fourier Transform"), this); connect(addDataReductionAction, &QAction::triggered, this, &CartesianPlot::addDataReductionCurve); connect(addDifferentiationAction, &QAction::triggered, this, &CartesianPlot::addDifferentiationCurve); connect(addIntegrationAction, &QAction::triggered, this, &CartesianPlot::addIntegrationCurve); connect(addInterpolationAction, &QAction::triggered, this, &CartesianPlot::addInterpolationCurve); connect(addSmoothAction, &QAction::triggered, this, &CartesianPlot::addSmoothCurve); connect(addConvolutionAction, &QAction::triggered, this, &CartesianPlot::addConvolutionCurve); connect(addCorrelationAction, &QAction::triggered, this, &CartesianPlot::addCorrelationCurve); for (const auto& action : addFitAction) connect(action, &QAction::triggered, this, &CartesianPlot::addFitCurve); connect(addFourierFilterAction, &QAction::triggered, this, &CartesianPlot::addFourierFilterCurve); connect(addFourierTransformAction, &QAction::triggered, this, &CartesianPlot::addFourierTransformCurve); //zoom/navigate actions scaleAutoAction = new QAction(QIcon::fromTheme("labplot-auto-scale-all"), i18n("Auto Scale"), this); scaleAutoXAction = new QAction(QIcon::fromTheme("labplot-auto-scale-x"), i18n("Auto Scale X"), this); scaleAutoYAction = new QAction(QIcon::fromTheme("labplot-auto-scale-y"), i18n("Auto Scale Y"), this); zoomInAction = new QAction(QIcon::fromTheme("zoom-in"), i18n("Zoom In"), this); zoomOutAction = new QAction(QIcon::fromTheme("zoom-out"), i18n("Zoom Out"), this); zoomInXAction = new QAction(QIcon::fromTheme("labplot-zoom-in-x"), i18n("Zoom In X"), this); zoomOutXAction = new QAction(QIcon::fromTheme("labplot-zoom-out-x"), i18n("Zoom Out X"), this); zoomInYAction = new QAction(QIcon::fromTheme("labplot-zoom-in-y"), i18n("Zoom In Y"), this); zoomOutYAction = new QAction(QIcon::fromTheme("labplot-zoom-out-y"), i18n("Zoom Out Y"), this); shiftLeftXAction = new QAction(QIcon::fromTheme("labplot-shift-left-x"), i18n("Shift Left X"), this); shiftRightXAction = new QAction(QIcon::fromTheme("labplot-shift-right-x"), i18n("Shift Right X"), this); shiftUpYAction = new QAction(QIcon::fromTheme("labplot-shift-up-y"), i18n("Shift Up Y"), this); shiftDownYAction = new QAction(QIcon::fromTheme("labplot-shift-down-y"), i18n("Shift Down Y"), this); connect(scaleAutoAction, &QAction::triggered, this, &CartesianPlot::scaleAutoTriggered); connect(scaleAutoXAction, &QAction::triggered, this, &CartesianPlot::scaleAutoTriggered); connect(scaleAutoYAction, &QAction::triggered, this, &CartesianPlot::scaleAutoTriggered); connect(zoomInAction, &QAction::triggered, this, &CartesianPlot::zoomIn); connect(zoomOutAction, &QAction::triggered, this, &CartesianPlot::zoomOut); connect(zoomInXAction, &QAction::triggered, this, &CartesianPlot::zoomInX); connect(zoomOutXAction, &QAction::triggered, this, &CartesianPlot::zoomOutX); connect(zoomInYAction, &QAction::triggered, this, &CartesianPlot::zoomInY); connect(zoomOutYAction, &QAction::triggered, this, &CartesianPlot::zoomOutY); connect(shiftLeftXAction, &QAction::triggered, this, &CartesianPlot::shiftLeftX); connect(shiftRightXAction, &QAction::triggered, this, &CartesianPlot::shiftRightX); connect(shiftUpYAction, &QAction::triggered, this, &CartesianPlot::shiftUpY); connect(shiftDownYAction, &QAction::triggered, this, &CartesianPlot::shiftDownY); //visibility action visibilityAction = new QAction(QIcon::fromTheme("view-visible"), i18n("Visible"), this); visibilityAction->setCheckable(true); connect(visibilityAction, &QAction::triggered, this, &CartesianPlot::visibilityChanged); } void CartesianPlot::initMenus() { initActions(); addNewMenu = new QMenu(i18n("Add New")); addNewMenu->setIcon(QIcon::fromTheme("list-add")); addNewMenu->addAction(addCurveAction); addNewMenu->addAction(addHistogramAction); addNewMenu->addAction(addEquationCurveAction); addNewMenu->addSeparator(); addNewAnalysisMenu = new QMenu(i18n("Analysis Curve")); addNewAnalysisMenu->addAction(addFitCurveAction); addNewAnalysisMenu->addSeparator(); addNewAnalysisMenu->addAction(addDifferentiationCurveAction); addNewAnalysisMenu->addAction(addIntegrationCurveAction); addNewAnalysisMenu->addSeparator(); addNewAnalysisMenu->addAction(addInterpolationCurveAction); addNewAnalysisMenu->addAction(addSmoothCurveAction); addNewAnalysisMenu->addSeparator(); addNewAnalysisMenu->addAction(addFourierFilterCurveAction); addNewAnalysisMenu->addAction(addFourierTransformCurveAction); addNewAnalysisMenu->addSeparator(); addNewAnalysisMenu->addAction(addConvolutionCurveAction); addNewAnalysisMenu->addAction(addCorrelationCurveAction); addNewAnalysisMenu->addSeparator(); addNewAnalysisMenu->addAction(addDataReductionCurveAction); addNewMenu->addMenu(addNewAnalysisMenu); addNewMenu->addSeparator(); addNewMenu->addAction(addLegendAction); addNewMenu->addSeparator(); addNewMenu->addAction(addHorizontalAxisAction); addNewMenu->addAction(addVerticalAxisAction); addNewMenu->addSeparator(); addNewMenu->addAction(addTextLabelAction); addNewMenu->addAction(addImageAction); addNewMenu->addSeparator(); addNewMenu->addAction(addCustomPointAction); + addNewMenu->addAction(addReferenceLineAction); zoomMenu = new QMenu(i18n("Zoom/Navigate")); zoomMenu->setIcon(QIcon::fromTheme("zoom-draw")); zoomMenu->addAction(scaleAutoAction); zoomMenu->addAction(scaleAutoXAction); zoomMenu->addAction(scaleAutoYAction); zoomMenu->addSeparator(); zoomMenu->addAction(zoomInAction); zoomMenu->addAction(zoomOutAction); zoomMenu->addSeparator(); zoomMenu->addAction(zoomInXAction); zoomMenu->addAction(zoomOutXAction); zoomMenu->addSeparator(); zoomMenu->addAction(zoomInYAction); zoomMenu->addAction(zoomOutYAction); zoomMenu->addSeparator(); zoomMenu->addAction(shiftLeftXAction); zoomMenu->addAction(shiftRightXAction); zoomMenu->addSeparator(); zoomMenu->addAction(shiftUpYAction); zoomMenu->addAction(shiftDownYAction); // Data manipulation menu // QMenu* dataManipulationMenu = new QMenu(i18n("Data Manipulation")); // dataManipulationMenu->setIcon(QIcon::fromTheme("zoom-draw")); // dataManipulationMenu->addAction(addDataOperationAction); // dataManipulationMenu->addAction(addDataReductionAction); // Data fit menu QMenu* dataFitMenu = new QMenu(i18n("Fit")); dataFitMenu->setIcon(QIcon::fromTheme("labplot-xy-fit-curve")); dataFitMenu->addAction(addFitAction.at(0)); dataFitMenu->addAction(addFitAction.at(1)); dataFitMenu->addAction(addFitAction.at(2)); dataFitMenu->addAction(addFitAction.at(3)); dataFitMenu->addAction(addFitAction.at(4)); dataFitMenu->addSeparator(); dataFitMenu->addAction(addFitAction.at(5)); dataFitMenu->addAction(addFitAction.at(6)); dataFitMenu->addSeparator(); dataFitMenu->addAction(addFitAction.at(7)); dataFitMenu->addAction(addFitAction.at(8)); dataFitMenu->addAction(addFitAction.at(9)); dataFitMenu->addSeparator(); dataFitMenu->addAction(addFitAction.at(10)); //analysis menu dataAnalysisMenu = new QMenu(i18n("Analysis")); dataAnalysisMenu->addMenu(dataFitMenu); dataAnalysisMenu->addSeparator(); dataAnalysisMenu->addAction(addDifferentiationAction); dataAnalysisMenu->addAction(addIntegrationAction); dataAnalysisMenu->addSeparator(); dataAnalysisMenu->addAction(addInterpolationAction); dataAnalysisMenu->addAction(addSmoothAction); dataAnalysisMenu->addSeparator(); dataAnalysisMenu->addAction(addFourierFilterAction); dataAnalysisMenu->addAction(addFourierTransformAction); dataAnalysisMenu->addSeparator(); dataAnalysisMenu->addAction(addConvolutionAction); dataAnalysisMenu->addAction(addCorrelationAction); dataAnalysisMenu->addSeparator(); // dataAnalysisMenu->insertMenu(nullptr, dataManipulationMenu); dataAnalysisMenu->addAction(addDataReductionAction); //themes menu themeMenu = new QMenu(i18n("Apply Theme")); themeMenu->setIcon(QIcon::fromTheme("color-management")); auto* themeWidget = new ThemesWidget(nullptr); connect(themeWidget, &ThemesWidget::themeSelected, this, &CartesianPlot::loadTheme); connect(themeWidget, &ThemesWidget::themeSelected, themeMenu, &QMenu::close); auto* widgetAction = new QWidgetAction(this); widgetAction->setDefaultWidget(themeWidget); themeMenu->addAction(widgetAction); m_menusInitialized = true; } QMenu* CartesianPlot::createContextMenu() { if (!m_menusInitialized) initMenus(); QMenu* menu = WorksheetElement::createContextMenu(); QAction* firstAction = menu->actions().at(1); menu->insertMenu(firstAction, addNewMenu); menu->insertSeparator(firstAction); menu->insertMenu(firstAction, zoomMenu); menu->insertSeparator(firstAction); menu->insertMenu(firstAction, themeMenu); menu->insertSeparator(firstAction); visibilityAction->setChecked(isVisible()); menu->insertAction(firstAction, visibilityAction); return menu; } QMenu* CartesianPlot::analysisMenu() { if (!m_menusInitialized) initMenus(); return dataAnalysisMenu; } /*! Returns an icon to be used in the project explorer. */ QIcon CartesianPlot::icon() const { return QIcon::fromTheme("office-chart-line"); } QVector CartesianPlot::dependsOn() const { //aspects which the plotted data in the worksheet depends on (spreadsheets and later matrices) QVector aspects; for (const auto* curve : children()) { if (curve->xColumn() && dynamic_cast(curve->xColumn()->parentAspect()) ) aspects << curve->xColumn()->parentAspect(); if (curve->yColumn() && dynamic_cast(curve->yColumn()->parentAspect()) ) aspects << curve->yColumn()->parentAspect(); } return aspects; } void CartesianPlot::navigate(CartesianPlot::NavigationOperation op) { Q_D(CartesianPlot); if (op == ScaleAuto) { if (d->curvesXMinMaxIsDirty || d->curvesYMinMaxIsDirty || !autoScaleX() || !autoScaleY()) { d->curvesXMinMaxIsDirty = true; d->curvesYMinMaxIsDirty = true; } scaleAuto(); } else if (op == ScaleAutoX) setAutoScaleX(true); else if (op == ScaleAutoY) setAutoScaleY(true); else if (op == ZoomIn) zoomIn(); else if (op == ZoomOut) zoomOut(); else if (op == ZoomInX) zoomInX(); else if (op == ZoomOutX) zoomOutX(); else if (op == ZoomInY) zoomInY(); else if (op == ZoomOutY) zoomOutY(); else if (op == ShiftLeftX) shiftLeftX(); else if (op == ShiftRightX) shiftRightX(); else if (op == ShiftUpY) shiftUpY(); else if (op == ShiftDownY) shiftDownY(); } void CartesianPlot::setSuppressDataChangedSignal(bool value) { Q_D(CartesianPlot); d->suppressRetransform = value; } void CartesianPlot::processDropEvent(QDropEvent* event) { PERFTRACE("CartesianPlot::processDropEvent"); const QMimeData* mimeData = event->mimeData(); if (!mimeData) return; //deserialize the mime data to the vector of aspect pointers QByteArray data = mimeData->data(QLatin1String("labplot-dnd")); QVector vec; QDataStream stream(&data, QIODevice::ReadOnly); stream >> vec; QVector columns; for (auto a : vec) { auto* aspect = (AbstractAspect*)a; auto* column = dynamic_cast(aspect); if (column) columns << column; } //return if there are no columns being dropped. //TODO: extend this later when we allow to drag&drop plots, etc. if (columns.isEmpty()) return; //determine the first column with "x plot designation" as the x-data column for all curves to be created const AbstractColumn* xColumn = nullptr; for (const auto* column : columns) { if (column->plotDesignation() == AbstractColumn::X) { xColumn = column; break; } } //if no column with "x plot designation" is available, use the x-data column of the first curve in the plot, if (xColumn == nullptr) { QVector curves = children(); if (!curves.isEmpty()) xColumn = curves.at(0)->xColumn(); } //use the first dropped column if no column with "x plot designation" nor curves are available if (xColumn == nullptr) xColumn = columns.at(0); //create curves bool curvesAdded = false; for (const auto* column : columns) { if (column == xColumn) continue; XYCurve* curve = new XYCurve(column->name()); curve->suppressRetransform(true); //suppress retransform, all curved will be recalculated at the end curve->setXColumn(xColumn); curve->setYColumn(column); addChild(curve); curve->suppressRetransform(false); curvesAdded = true; } if (curvesAdded) dataChanged(); } bool CartesianPlot::isPanningActive() const { Q_D(const CartesianPlot); return d->panningStarted; } bool CartesianPlot::isHovered() const { Q_D(const CartesianPlot); return d->m_hovered; } bool CartesianPlot::isPrinted() const { Q_D(const CartesianPlot); return d->m_printing; } bool CartesianPlot::isSelected() const { Q_D(const CartesianPlot); return d->isSelected(); } //############################################################################## //################################ getter methods ############################ //############################################################################## BASIC_SHARED_D_READER_IMPL(CartesianPlot, CartesianPlot::RangeType, rangeType, rangeType) BASIC_SHARED_D_READER_IMPL(CartesianPlot, CartesianPlot::RangeFormat, xRangeFormat, xRangeFormat) BASIC_SHARED_D_READER_IMPL(CartesianPlot, CartesianPlot::RangeFormat, yRangeFormat, yRangeFormat) BASIC_SHARED_D_READER_IMPL(CartesianPlot, int, rangeLastValues, rangeLastValues) BASIC_SHARED_D_READER_IMPL(CartesianPlot, int, rangeFirstValues, rangeFirstValues) BASIC_SHARED_D_READER_IMPL(CartesianPlot, bool, autoScaleX, autoScaleX) BASIC_SHARED_D_READER_IMPL(CartesianPlot, double, xMin, xMin) BASIC_SHARED_D_READER_IMPL(CartesianPlot, double, xMax, xMax) BASIC_SHARED_D_READER_IMPL(CartesianPlot, CartesianPlot::Scale, xScale, xScale) BASIC_SHARED_D_READER_IMPL(CartesianPlot, bool, xRangeBreakingEnabled, xRangeBreakingEnabled) CLASS_SHARED_D_READER_IMPL(CartesianPlot, CartesianPlot::RangeBreaks, xRangeBreaks, xRangeBreaks) BASIC_SHARED_D_READER_IMPL(CartesianPlot, bool, autoScaleY, autoScaleY) BASIC_SHARED_D_READER_IMPL(CartesianPlot, double, yMin, yMin) BASIC_SHARED_D_READER_IMPL(CartesianPlot, double, yMax, yMax) BASIC_SHARED_D_READER_IMPL(CartesianPlot, CartesianPlot::Scale, yScale, yScale) BASIC_SHARED_D_READER_IMPL(CartesianPlot, bool, yRangeBreakingEnabled, yRangeBreakingEnabled) CLASS_SHARED_D_READER_IMPL(CartesianPlot, CartesianPlot::RangeBreaks, yRangeBreaks, yRangeBreaks) CLASS_SHARED_D_READER_IMPL(CartesianPlot, QPen, cursorPen, cursorPen); CLASS_SHARED_D_READER_IMPL(CartesianPlot, bool, cursor0Enable, cursor0Enable); CLASS_SHARED_D_READER_IMPL(CartesianPlot, bool, cursor1Enable, cursor1Enable); CLASS_SHARED_D_READER_IMPL(CartesianPlot, QString, theme, theme) /*! returns the actual bounding rectangular of the plot area showing data (plot's rectangular minus padding) in plot's coordinates */ QRectF CartesianPlot::dataRect() const { Q_D(const CartesianPlot); return d->dataRect; } CartesianPlot::MouseMode CartesianPlot::mouseMode() const { Q_D(const CartesianPlot); return d->mouseMode; } const QString& CartesianPlot::xRangeDateTimeFormat() const { Q_D(const CartesianPlot); return d->xRangeDateTimeFormat; } const QString& CartesianPlot::yRangeDateTimeFormat() const { Q_D(const CartesianPlot); return d->yRangeDateTimeFormat; } //############################################################################## //###################### setter methods and undo commands #################### //############################################################################## /*! set the rectangular, defined in scene coordinates */ class CartesianPlotSetRectCmd : public QUndoCommand { public: CartesianPlotSetRectCmd(CartesianPlotPrivate* private_obj, QRectF rect) : m_private(private_obj), m_rect(rect) { setText(i18n("%1: change geometry rect", m_private->name())); }; void redo() override { // const double horizontalRatio = m_rect.width() / m_private->rect.width(); // const double verticalRatio = m_rect.height() / m_private->rect.height(); qSwap(m_private->rect, m_rect); // m_private->q->handleResize(horizontalRatio, verticalRatio, false); m_private->retransform(); emit m_private->q->rectChanged(m_private->rect); }; void undo() override { redo(); } private: CartesianPlotPrivate* m_private; QRectF m_rect; }; void CartesianPlot::setRect(const QRectF& rect) { Q_D(CartesianPlot); if (rect != d->rect) exec(new CartesianPlotSetRectCmd(d, rect)); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetRangeType, CartesianPlot::RangeType, rangeType, rangeChanged); void CartesianPlot::setRangeType(RangeType type) { Q_D(CartesianPlot); if (type != d->rangeType) exec(new CartesianPlotSetRangeTypeCmd(d, type, ki18n("%1: set range type"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetXRangeFormat, CartesianPlot::RangeFormat, xRangeFormat, xRangeFormatChanged); void CartesianPlot::setXRangeFormat(RangeFormat format) { Q_D(CartesianPlot); if (format != d->xRangeFormat) exec(new CartesianPlotSetXRangeFormatCmd(d, format, ki18n("%1: set x-range format"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetYRangeFormat, CartesianPlot::RangeFormat, yRangeFormat, yRangeFormatChanged); void CartesianPlot::setYRangeFormat(RangeFormat format) { Q_D(CartesianPlot); if (format != d->yRangeFormat) exec(new CartesianPlotSetYRangeFormatCmd(d, format, ki18n("%1: set y-range format"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetRangeLastValues, int, rangeLastValues, rangeChanged); void CartesianPlot::setRangeLastValues(int values) { Q_D(CartesianPlot); if (values != d->rangeLastValues) exec(new CartesianPlotSetRangeLastValuesCmd(d, values, ki18n("%1: set range"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetRangeFirstValues, int, rangeFirstValues, rangeChanged); void CartesianPlot::setRangeFirstValues(int values) { Q_D(CartesianPlot); if (values != d->rangeFirstValues) exec(new CartesianPlotSetRangeFirstValuesCmd(d, values, ki18n("%1: set range"))); } class CartesianPlotSetAutoScaleXCmd : public QUndoCommand { public: CartesianPlotSetAutoScaleXCmd(CartesianPlotPrivate* private_obj, bool autoScale) : m_private(private_obj), m_autoScale(autoScale), m_autoScaleOld(false), m_minOld(0.0), m_maxOld(0.0) { setText(i18n("%1: change x-range auto scaling", m_private->name())); }; void redo() override { m_autoScaleOld = m_private->autoScaleX; if (m_autoScale) { m_minOld = m_private->xMin; m_maxOld = m_private->xMax; m_private->q->scaleAutoX(); } m_private->autoScaleX = m_autoScale; emit m_private->q->xAutoScaleChanged(m_autoScale); }; void undo() override { if (!m_autoScaleOld) { m_private->xMin = m_minOld; m_private->xMax = m_maxOld; m_private->retransformScales(); } m_private->autoScaleX = m_autoScaleOld; emit m_private->q->xAutoScaleChanged(m_autoScaleOld); } private: CartesianPlotPrivate* m_private; bool m_autoScale; bool m_autoScaleOld; double m_minOld; double m_maxOld; }; void CartesianPlot::setAutoScaleX(bool autoScaleX) { Q_D(CartesianPlot); if (autoScaleX != d->autoScaleX) exec(new CartesianPlotSetAutoScaleXCmd(d, autoScaleX)); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetXMin, double, xMin, retransformScales) void CartesianPlot::setXMin(double xMin) { Q_D(CartesianPlot); if (xMin != d->xMin && xMin != -INFINITY && xMin != INFINITY) { d->curvesYMinMaxIsDirty = true; exec(new CartesianPlotSetXMinCmd(d, xMin, ki18n("%1: set min x"))); if (d->autoScaleY) scaleAutoY(); } } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetXMax, double, xMax, retransformScales) void CartesianPlot::setXMax(double xMax) { Q_D(CartesianPlot); if (xMax != d->xMax && xMax != -INFINITY && xMax != INFINITY) { d->curvesYMinMaxIsDirty = true; exec(new CartesianPlotSetXMaxCmd(d, xMax, ki18n("%1: set max x"))); if (d->autoScaleY) scaleAutoY(); } } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetXScale, CartesianPlot::Scale, xScale, retransformScales) void CartesianPlot::setXScale(Scale scale) { Q_D(CartesianPlot); if (scale != d->xScale) exec(new CartesianPlotSetXScaleCmd(d, scale, ki18n("%1: set x scale"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetXRangeBreakingEnabled, bool, xRangeBreakingEnabled, retransformScales) void CartesianPlot::setXRangeBreakingEnabled(bool enabled) { Q_D(CartesianPlot); if (enabled != d->xRangeBreakingEnabled) exec(new CartesianPlotSetXRangeBreakingEnabledCmd(d, enabled, ki18n("%1: x-range breaking enabled"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetXRangeBreaks, CartesianPlot::RangeBreaks, xRangeBreaks, retransformScales) void CartesianPlot::setXRangeBreaks(const RangeBreaks& breakings) { Q_D(CartesianPlot); exec(new CartesianPlotSetXRangeBreaksCmd(d, breakings, ki18n("%1: x-range breaks changed"))); } class CartesianPlotSetAutoScaleYCmd : public QUndoCommand { public: CartesianPlotSetAutoScaleYCmd(CartesianPlotPrivate* private_obj, bool autoScale) : m_private(private_obj), m_autoScale(autoScale), m_autoScaleOld(false), m_minOld(0.0), m_maxOld(0.0) { setText(i18n("%1: change y-range auto scaling", m_private->name())); }; void redo() override { m_autoScaleOld = m_private->autoScaleY; if (m_autoScale) { m_minOld = m_private->yMin; m_maxOld = m_private->yMax; m_private->q->scaleAutoY(); } m_private->autoScaleY = m_autoScale; emit m_private->q->yAutoScaleChanged(m_autoScale); }; void undo() override { if (!m_autoScaleOld) { m_private->yMin = m_minOld; m_private->yMax = m_maxOld; m_private->retransformScales(); } m_private->autoScaleY = m_autoScaleOld; emit m_private->q->yAutoScaleChanged(m_autoScaleOld); } private: CartesianPlotPrivate* m_private; bool m_autoScale; bool m_autoScaleOld; double m_minOld; double m_maxOld; }; void CartesianPlot::setAutoScaleY(bool autoScaleY) { Q_D(CartesianPlot); if (autoScaleY != d->autoScaleY) exec(new CartesianPlotSetAutoScaleYCmd(d, autoScaleY)); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetYMin, double, yMin, retransformScales) void CartesianPlot::setYMin(double yMin) { Q_D(CartesianPlot); if (yMin != d->yMin) { d->curvesXMinMaxIsDirty = true; exec(new CartesianPlotSetYMinCmd(d, yMin, ki18n("%1: set min y"))); if (d->autoScaleX) scaleAutoX(); } } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetYMax, double, yMax, retransformScales) void CartesianPlot::setYMax(double yMax) { Q_D(CartesianPlot); if (yMax != d->yMax) { d->curvesXMinMaxIsDirty = true; exec(new CartesianPlotSetYMaxCmd(d, yMax, ki18n("%1: set max y"))); if (d->autoScaleX) scaleAutoX(); } } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetYScale, CartesianPlot::Scale, yScale, retransformScales) void CartesianPlot::setYScale(Scale scale) { Q_D(CartesianPlot); if (scale != d->yScale) exec(new CartesianPlotSetYScaleCmd(d, scale, ki18n("%1: set y scale"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetYRangeBreakingEnabled, bool, yRangeBreakingEnabled, retransformScales) void CartesianPlot::setYRangeBreakingEnabled(bool enabled) { Q_D(CartesianPlot); if (enabled != d->yRangeBreakingEnabled) exec(new CartesianPlotSetYRangeBreakingEnabledCmd(d, enabled, ki18n("%1: y-range breaking enabled"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetYRangeBreaks, CartesianPlot::RangeBreaks, yRangeBreaks, retransformScales) void CartesianPlot::setYRangeBreaks(const RangeBreaks& breaks) { Q_D(CartesianPlot); exec(new CartesianPlotSetYRangeBreaksCmd(d, breaks, ki18n("%1: y-range breaks changed"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetCursorPen, QPen, cursorPen, update) void CartesianPlot::setCursorPen(const QPen &pen) { Q_D(CartesianPlot); if (pen != d->cursorPen) exec(new CartesianPlotSetCursorPenCmd(d, pen, ki18n("%1: y-range breaks changed"))); } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetCursor0Enable, bool, cursor0Enable, updateCursor) void CartesianPlot::setCursor0Enable(const bool &enable) { Q_D(CartesianPlot); if (enable != d->cursor0Enable) { if (std::isnan(d->cursor0Pos.x())) { // if never set, set initial position d->cursor0Pos.setX(d->cSystem->mapSceneToLogical(QPointF(0,0)).x()); mousePressCursorModeSignal(0, d->cursor0Pos); // simulate mousePress to update values in the cursor dock } exec(new CartesianPlotSetCursor0EnableCmd(d, enable, ki18n("%1: Cursor0 enable"))); } } STD_SETTER_CMD_IMPL_F_S(CartesianPlot, SetCursor1Enable, bool, cursor1Enable, updateCursor) void CartesianPlot::setCursor1Enable(const bool &enable) { Q_D(CartesianPlot); if (enable != d->cursor1Enable) { if (std::isnan(d->cursor1Pos.x())) { // if never set, set initial position d->cursor1Pos.setX(d->cSystem->mapSceneToLogical(QPointF(0,0)).x()); mousePressCursorModeSignal(1, d->cursor1Pos); // simulate mousePress to update values in the cursor dock } exec(new CartesianPlotSetCursor1EnableCmd(d, enable, ki18n("%1: Cursor1 enable"))); } } STD_SETTER_CMD_IMPL_S(CartesianPlot, SetTheme, QString, theme) void CartesianPlot::setTheme(const QString& theme) { Q_D(CartesianPlot); if (theme != d->theme) { if (!theme.isEmpty()) { beginMacro( i18n("%1: load theme %2", name(), theme) ); exec(new CartesianPlotSetThemeCmd(d, theme, ki18n("%1: set theme"))); loadTheme(theme); endMacro(); } else exec(new CartesianPlotSetThemeCmd(d, theme, ki18n("%1: disable theming"))); } } //################################################################ //########################## Slots ############################### //################################################################ void CartesianPlot::addHorizontalAxis() { Axis* axis = new Axis("x-axis", Axis::AxisHorizontal); if (axis->autoScale()) { axis->setUndoAware(false); axis->setStart(xMin()); axis->setEnd(xMax()); axis->setUndoAware(true); } addChild(axis); } void CartesianPlot::addVerticalAxis() { Axis* axis = new Axis("y-axis", Axis::AxisVertical); if (axis->autoScale()) { axis->setUndoAware(false); axis->setStart(yMin()); axis->setEnd(yMax()); axis->setUndoAware(true); } addChild(axis); } void CartesianPlot::addCurve() { addChild(new XYCurve("xy-curve")); } void CartesianPlot::addEquationCurve() { addChild(new XYEquationCurve("f(x)")); } void CartesianPlot::addHistogram() { addChild(new Histogram("Histogram")); } /*! * returns the first selected XYCurve in the plot */ const XYCurve* CartesianPlot::currentCurve() const { for (const auto* curve : this->children()) { if (curve->graphicsItem()->isSelected()) return curve; } return nullptr; } void CartesianPlot::addDataReductionCurve() { XYDataReductionCurve* curve = new XYDataReductionCurve("Data reduction"); const XYCurve* curCurve = currentCurve(); if (curCurve) { beginMacro( i18n("%1: reduce '%2'", name(), curCurve->name()) ); curve->setName( i18n("Reduction of '%1'", curCurve->name()) ); curve->setDataSourceType(XYAnalysisCurve::DataSourceCurve); curve->setDataSourceCurve(curCurve); this->addChild(curve); curve->recalculate(); emit curve->dataReductionDataChanged(curve->dataReductionData()); } else { beginMacro(i18n("%1: add data reduction curve", name())); this->addChild(curve); } endMacro(); } void CartesianPlot::addDifferentiationCurve() { XYDifferentiationCurve* curve = new XYDifferentiationCurve("Differentiation"); const XYCurve* curCurve = currentCurve(); if (curCurve) { beginMacro( i18n("%1: differentiate '%2'", name(), curCurve->name()) ); curve->setName( i18n("Derivative of '%1'", curCurve->name()) ); curve->setDataSourceType(XYAnalysisCurve::DataSourceCurve); curve->setDataSourceCurve(curCurve); this->addChild(curve); curve->recalculate(); emit curve->differentiationDataChanged(curve->differentiationData()); } else { beginMacro(i18n("%1: add differentiation curve", name())); this->addChild(curve); } endMacro(); } void CartesianPlot::addIntegrationCurve() { XYIntegrationCurve* curve = new XYIntegrationCurve("Integration"); const XYCurve* curCurve = currentCurve(); if (curCurve) { beginMacro( i18n("%1: integrate '%2'", name(), curCurve->name()) ); curve->setName( i18n("Integral of '%1'", curCurve->name()) ); curve->setDataSourceType(XYAnalysisCurve::DataSourceCurve); curve->setDataSourceCurve(curCurve); this->addChild(curve); curve->recalculate(); emit curve->integrationDataChanged(curve->integrationData()); } else { beginMacro(i18n("%1: add integration curve", name())); this->addChild(curve); } endMacro(); } void CartesianPlot::addInterpolationCurve() { XYInterpolationCurve* curve = new XYInterpolationCurve("Interpolation"); const XYCurve* curCurve = currentCurve(); if (curCurve) { beginMacro( i18n("%1: interpolate '%2'", name(), curCurve->name()) ); curve->setName( i18n("Interpolation of '%1'", curCurve->name()) ); curve->setDataSourceType(XYAnalysisCurve::DataSourceCurve); curve->setDataSourceCurve(curCurve); curve->recalculate(); this->addChild(curve); emit curve->interpolationDataChanged(curve->interpolationData()); } else { beginMacro(i18n("%1: add interpolation curve", name())); this->addChild(curve); } endMacro(); } void CartesianPlot::addSmoothCurve() { XYSmoothCurve* curve = new XYSmoothCurve("Smooth"); const XYCurve* curCurve = currentCurve(); if (curCurve) { beginMacro( i18n("%1: smooth '%2'", name(), curCurve->name()) ); curve->setName( i18n("Smoothing of '%1'", curCurve->name()) ); curve->setDataSourceType(XYAnalysisCurve::DataSourceCurve); curve->setDataSourceCurve(curCurve); this->addChild(curve); curve->recalculate(); emit curve->smoothDataChanged(curve->smoothData()); } else { beginMacro(i18n("%1: add smoothing curve", name())); this->addChild(curve); } endMacro(); } void CartesianPlot::addFitCurve() { DEBUG("CartesianPlot::addFitCurve()"); XYFitCurve* curve = new XYFitCurve("fit"); const XYCurve* curCurve = currentCurve(); if (curCurve) { beginMacro( i18n("%1: fit to '%2'", name(), curCurve->name()) ); curve->setName( i18n("Fit to '%1'", curCurve->name()) ); curve->setDataSourceType(XYAnalysisCurve::DataSourceCurve); curve->setDataSourceCurve(curCurve); //set the fit model category and type const auto* action = qobject_cast(QObject::sender()); PlotDataDialog::AnalysisAction type = (PlotDataDialog::AnalysisAction)action->data().toInt(); curve->initFitData(type); curve->initStartValues(curCurve); //fit with weights for y if the curve has error bars for y if (curCurve->yErrorType() == XYCurve::SymmetricError && curCurve->yErrorPlusColumn()) { XYFitCurve::FitData fitData = curve->fitData(); fitData.yWeightsType = nsl_fit_weight_instrumental; curve->setFitData(fitData); curve->setYErrorColumn(curCurve->yErrorPlusColumn()); } curve->recalculate(); //add the child after the fit was calculated so the dock widgets gets the fit results //and call retransform() after this to calculate and to paint the data points of the fit-curve this->addChild(curve); curve->retransform(); } else { beginMacro(i18n("%1: add fit curve", name())); this->addChild(curve); } endMacro(); } void CartesianPlot::addFourierFilterCurve() { XYFourierFilterCurve* curve = new XYFourierFilterCurve("Fourier filter"); const XYCurve* curCurve = currentCurve(); if (curCurve) { beginMacro( i18n("%1: Fourier filtering of '%2'", name(), curCurve->name()) ); curve->setName( i18n("Fourier filtering of '%1'", curCurve->name()) ); curve->setDataSourceType(XYAnalysisCurve::DataSourceCurve); curve->setDataSourceCurve(curCurve); this->addChild(curve); } else { beginMacro(i18n("%1: add Fourier filter curve", name())); this->addChild(curve); } endMacro(); } void CartesianPlot::addFourierTransformCurve() { XYFourierTransformCurve* curve = new XYFourierTransformCurve("Fourier transform"); this->addChild(curve); } void CartesianPlot::addConvolutionCurve() { XYConvolutionCurve* curve = new XYConvolutionCurve("Convolution"); this->addChild(curve); } void CartesianPlot::addCorrelationCurve() { XYCorrelationCurve* curve = new XYCorrelationCurve("Auto-/Cross-Correlation"); this->addChild(curve); } /*! * public helper function to set a legend object created outside of CartesianPlot, e.g. in \c OriginProjectParser. */ void CartesianPlot::addLegend(CartesianPlotLegend* legend) { m_legend = legend; this->addChild(legend); } void CartesianPlot::addLegend() { //don't do anything if there's already a legend if (m_legend) return; m_legend = new CartesianPlotLegend(this, "legend"); this->addChild(m_legend); m_legend->retransform(); //only one legend is allowed -> disable the action if (m_menusInitialized) addLegendAction->setEnabled(false); } void CartesianPlot::addTextLabel() { TextLabel* label = new TextLabel("text label"); this->addChild(label); label->setParentGraphicsItem(graphicsItem()); } void CartesianPlot::addImage() { Image* image = new Image("image"); this->addChild(image); } void CartesianPlot::addCustomPoint() { CustomPoint* point = new CustomPoint(this, "custom point"); this->addChild(point); } +void CartesianPlot::addReferenceLine() { + ReferenceLine* line = new ReferenceLine(this, "reference line"); + this->addChild(line); +} + + int CartesianPlot::curveCount(){ return children().length(); } const XYCurve* CartesianPlot::getCurve(int index){ return children()[index]; } double CartesianPlot::cursorPos(int cursorNumber) { Q_D(CartesianPlot); if (cursorNumber == 0) return d->cursor0Pos.x(); else return d->cursor1Pos.x(); } void CartesianPlot::childAdded(const AbstractAspect* child) { Q_D(CartesianPlot); const auto* curve = qobject_cast(child); if (curve) { connect(curve, &XYCurve::dataChanged, this, &CartesianPlot::dataChanged); connect(curve, &XYCurve::xDataChanged, this, &CartesianPlot::xDataChanged); connect(curve, &XYCurve::xErrorTypeChanged, this, &CartesianPlot::dataChanged); connect(curve, &XYCurve::xErrorPlusColumnChanged, this, &CartesianPlot::dataChanged); connect(curve, &XYCurve::xErrorMinusColumnChanged, this, &CartesianPlot::dataChanged); connect(curve, &XYCurve::yDataChanged, this, &CartesianPlot::yDataChanged); connect(curve, &XYCurve::yErrorTypeChanged, this, &CartesianPlot::dataChanged); connect(curve, &XYCurve::yErrorPlusColumnChanged, this, &CartesianPlot::dataChanged); connect(curve, &XYCurve::yErrorMinusColumnChanged, this, &CartesianPlot::dataChanged); connect(curve, static_cast(&XYCurve::visibilityChanged), this, &CartesianPlot::curveVisibilityChanged); //update the legend on changes of the name, line and symbol styles connect(curve, &XYCurve::aspectDescriptionChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::aspectDescriptionChanged, this, &CartesianPlot::curveNameChanged); connect(curve, &XYCurve::lineTypeChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::linePenChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::linePenChanged, this, static_cast(&CartesianPlot::curveLinePenChanged)); connect(curve, &XYCurve::lineOpacityChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::symbolsStyleChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::symbolsSizeChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::symbolsRotationAngleChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::symbolsOpacityChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::symbolsBrushChanged, this, &CartesianPlot::updateLegend); connect(curve, &XYCurve::symbolsPenChanged, this, &CartesianPlot::updateLegend); updateLegend(); d->curvesXMinMaxIsDirty = true; d->curvesYMinMaxIsDirty = true; //in case the first curve is added, check whether we start plotting datetime data if (children().size() == 1) { const auto* col = dynamic_cast(curve->xColumn()); if (col) { if (col->columnMode() == AbstractColumn::DateTime) { setUndoAware(false); setXRangeFormat(CartesianPlot::DateTime); setUndoAware(true); //set column's datetime format for all horizontal axis for (auto* axis : children()) { if (axis->orientation() == Axis::AxisHorizontal) { auto* filter = static_cast(col->outputFilter()); d->xRangeDateTimeFormat = filter->format(); axis->setUndoAware(false); axis->setLabelsDateTimeFormat(d->xRangeDateTimeFormat); axis->setUndoAware(true); } } } } col = dynamic_cast(curve->yColumn()); if (col) { if (col->columnMode() == AbstractColumn::DateTime) { setUndoAware(false); setYRangeFormat(CartesianPlot::DateTime); setUndoAware(true); //set column's datetime format for all vertical axis for (auto* axis : children()) { if (axis->orientation() == Axis::AxisVertical) { auto* filter = static_cast(col->outputFilter()); d->yRangeDateTimeFormat = filter->format(); axis->setUndoAware(false); axis->setLabelsDateTimeFormat(d->yRangeDateTimeFormat); axis->setUndoAware(true); } } } } } emit curveAdded(curve); } else { const auto* hist = qobject_cast(child); if (hist) { connect(hist, &Histogram::dataChanged, this, &CartesianPlot::dataChanged); connect(hist, &Histogram::visibilityChanged, this, &CartesianPlot::curveVisibilityChanged); updateLegend(); } // if an element is hovered, the curves which are handled manually in this class // must be unhovered const auto* element = static_cast(child); connect(element, &WorksheetElement::hovered, this, &CartesianPlot::childHovered); } if (!isLoading()) { //if a theme was selected, apply the theme settings for newly added children, too if (!d->theme.isEmpty()) { const auto* elem = dynamic_cast(child); if (elem) { KConfig config(ThemeHandler::themeFilePath(d->theme), KConfig::SimpleConfig); const_cast(elem)->loadThemeConfig(config); } } else { //no theme is available, apply the default colors for curves only, s.a. XYCurve::loadThemeConfig() const auto* curve = dynamic_cast(child); if (curve) { int index = indexOfChild(curve); QColor themeColor; if (index < m_themeColorPalette.size()) themeColor = m_themeColorPalette.at(index); else { if (m_themeColorPalette.size()) themeColor = m_themeColorPalette.last(); } auto* c = const_cast(curve); //Line QPen p = curve->linePen(); p.setColor(themeColor); c->setLinePen(p); //Drop line p = curve->dropLinePen(); p.setColor(themeColor); c->setDropLinePen(p); //Symbol QBrush brush = c->symbolsBrush(); brush.setColor(themeColor); c->setSymbolsBrush(brush); p = c->symbolsPen(); p.setColor(themeColor); c->setSymbolsPen(p); //Filling c->setFillingFirstColor(themeColor); //Error bars p.setColor(themeColor); c->setErrorBarsPen(p); } } } } void CartesianPlot::childRemoved(const AbstractAspect* parent, const AbstractAspect* before, const AbstractAspect* child) { Q_UNUSED(parent); Q_UNUSED(before); if (m_legend == child) { if (m_menusInitialized) addLegendAction->setEnabled(true); m_legend = nullptr; } else { const auto* curve = qobject_cast(child); if (curve) { updateLegend(); emit curveRemoved(curve); } } } /*! * \brief CartesianPlot::childHovered * Unhover all curves, when another child is hovered. The hover handling for the curves is done in their parent (CartesianPlot), * because the hover should set when the curve is hovered and not just the bounding rect (for more see hoverMoveEvent) */ void CartesianPlot::childHovered() { Q_D(CartesianPlot); bool curveSender = dynamic_cast(QObject::sender()) != nullptr; if (!d->isSelected()) { if (d->m_hovered) d->m_hovered = false; d->update(); } if (!curveSender) { for (auto curve: children()) curve->setHover(false); } } void CartesianPlot::updateLegend() { if (m_legend) m_legend->retransform(); } /*! called when in one of the curves the data was changed. Autoscales the coordinate system and the x-axes, when "auto-scale" is active. */ void CartesianPlot::dataChanged() { if (project() && project()->isLoading()) return; Q_D(CartesianPlot); d->curvesXMinMaxIsDirty = true; d->curvesYMinMaxIsDirty = true; bool updated = false; if (d->autoScaleX && d->autoScaleY) updated = scaleAuto(); else if (d->autoScaleX) updated = scaleAutoX(); else if (d->autoScaleY) updated = scaleAutoY(); if (!updated || !QObject::sender()) { //even if the plot ranges were not changed, either no auto scale active or the new data //is within the current ranges and no change of the ranges is required, //retransform the curve in order to show the changes auto* curve = dynamic_cast(QObject::sender()); if (curve) curve->retransform(); else { auto* hist = dynamic_cast(QObject::sender()); if (hist) hist->retransform(); else { //no sender available, the function was called directly in the file filter (live data source got new data) //or in Project::load() -> retransform all available curves since we don't know which curves are affected. //TODO: this logic can be very expensive for (auto* c : children()) { c->recalcLogicalPoints(); c->retransform(); } } } } } /*! called when in one of the curves the x-data was changed. Autoscales the coordinate system and the x-axes, when "auto-scale" is active. */ void CartesianPlot::xDataChanged() { if (project() && project()->isLoading()) return; Q_D(CartesianPlot); if (d->suppressRetransform) return; d->curvesXMinMaxIsDirty = true; bool updated = false; if (d->autoScaleX) updated = this->scaleAutoX(); if (!updated) { //even if the plot ranges were not changed, either no auto scale active or the new data //is within the current ranges and no change of the ranges is required, //retransform the curve in order to show the changes auto* curve = dynamic_cast(QObject::sender()); if (curve) curve->retransform(); else { auto* hist = dynamic_cast(QObject::sender()); if (hist) hist->retransform(); } } //in case there is only one curve and its column mode was changed, check whether we start plotting datetime data if (children().size() == 1) { auto* curve = dynamic_cast(QObject::sender()); const AbstractColumn* col = curve->xColumn(); if (col->columnMode() == AbstractColumn::DateTime && d->xRangeFormat != CartesianPlot::DateTime) { setUndoAware(false); setXRangeFormat(CartesianPlot::DateTime); setUndoAware(true); } } emit curveDataChanged(dynamic_cast(QObject::sender())); } /*! called when in one of the curves the x-data was changed. Autoscales the coordinate system and the x-axes, when "auto-scale" is active. */ void CartesianPlot::yDataChanged() { if (project() && project()->isLoading()) return; Q_D(CartesianPlot); if (d->suppressRetransform) return; d->curvesYMinMaxIsDirty = true; bool updated = false; if (d->autoScaleY) updated = this->scaleAutoY(); if (!updated) { //even if the plot ranges were not changed, either no auto scale active or the new data //is within the current ranges and no change of the ranges is required, //retransform the curve in order to show the changes auto* curve = dynamic_cast(QObject::sender()); if (curve) curve->retransform(); else { auto* hist = dynamic_cast(QObject::sender()); if (hist) hist->retransform(); } } //in case there is only one curve and its column mode was changed, check whether we start plotting datetime data if (children().size() == 1) { auto* curve = dynamic_cast(QObject::sender()); const AbstractColumn* col = curve->yColumn(); if (col->columnMode() == AbstractColumn::DateTime && d->xRangeFormat != CartesianPlot::DateTime) { setUndoAware(false); setYRangeFormat(CartesianPlot::DateTime); setUndoAware(true); } } emit curveDataChanged(dynamic_cast(QObject::sender())); } void CartesianPlot::curveVisibilityChanged() { Q_D(CartesianPlot); d->curvesXMinMaxIsDirty = true; d->curvesYMinMaxIsDirty = true; updateLegend(); if (d->autoScaleX && d->autoScaleY) this->scaleAuto(); else if (d->autoScaleX) this->scaleAutoX(); else if (d->autoScaleY) this->scaleAutoY(); emit curveVisibilityChangedSignal(); } void CartesianPlot::curveLinePenChanged(QPen pen) { const auto* curve = qobject_cast(QObject::sender()); emit curveLinePenChanged(pen, curve->name()); } void CartesianPlot::setMouseMode(const MouseMode mouseMode) { Q_D(CartesianPlot); d->mouseMode = mouseMode; d->setHandlesChildEvents(mouseMode != CartesianPlot::SelectionMode); QList items = d->childItems(); if (d->mouseMode == CartesianPlot::SelectionMode) { d->setZoomSelectionBandShow(false); d->setCursor(Qt::ArrowCursor); for (auto* item : items) item->setFlag(QGraphicsItem::ItemStacksBehindParent, false); } else { for (auto* item : items) item->setFlag(QGraphicsItem::ItemStacksBehindParent, true); } //when doing zoom selection, prevent the graphics item from being movable //if it's currently movable (no worksheet layout available) const auto* worksheet = dynamic_cast(parentAspect()); if (worksheet) { if (mouseMode == CartesianPlot::SelectionMode) { if (worksheet->layout() != Worksheet::NoLayout) graphicsItem()->setFlag(QGraphicsItem::ItemIsMovable, false); else graphicsItem()->setFlag(QGraphicsItem::ItemIsMovable, true); } else //zoom m_selection graphicsItem()->setFlag(QGraphicsItem::ItemIsMovable, false); } emit mouseModeChanged(mouseMode); } void CartesianPlot::setLocked(bool locked) { Q_D(CartesianPlot); d->locked = locked; } bool CartesianPlot::scaleAutoX() { Q_D(CartesianPlot); if (d->curvesXMinMaxIsDirty) { calculateCurvesXMinMax(false); //loop over all histograms and determine the maximum and minimum x-values for (const auto* curve : this->children()) { if (!curve->isVisible()) continue; if (!curve->dataColumn()) continue; const double min = curve->getXMinimum(); if (min < d->curvesXMin) d->curvesXMin = min; const double max = curve->getXMaximum(); if (max > d->curvesXMax) d->curvesXMax = max; } // do it at the end, because it must be from the real min/max values double errorBarsCapSize = -1; for (auto* curve : this->children()) { if (curve->yErrorType() != XYCurve::ErrorType::NoError) { errorBarsCapSize = qMax(errorBarsCapSize, curve->errorBarsCapSize()); } } if (errorBarsCapSize > 0) { // must be done, because retransformScales uses xMin/xMax if (d->curvesXMin != d->xMin && d->curvesXMin != INFINITY) d->xMin = d->curvesXMin; if (d->curvesXMax != d->xMax && d->curvesXMax != -INFINITY) d->xMax = d->curvesXMax; // When the previous scale is completely different. The mapTo functions scale with wrong values. To prevent // this a rescale must be done. // The errorBarsCapSize is in Scene coordinates. So this value must be transformed into a logical value. Due // to nonlinear scalings it cannot only be multiplied with a scaling factor and depends on the position of the // column value // dirty hack: call setIsLoading(true) to suppress the call of retransform() in retransformScales() since a // retransform is already done at the end of this function setIsLoading(true); d->retransformScales(); setIsLoading(false); QPointF point = coordinateSystem()->mapLogicalToScene(QPointF(d->curvesXMin, 0), AbstractCoordinateSystem::SuppressPageClipping); point.setX(point.x() - errorBarsCapSize); point = coordinateSystem()->mapSceneToLogical(point, AbstractCoordinateSystem::SuppressPageClipping); // Problem is, when the scaling is not linear (for example log(x)) and the minimum is 0. In this // case mapLogicalToScene returns (0,0) which is smaller than the curves minimum if (point.x() < d->curvesXMin) d->curvesXMin = point.x(); point = coordinateSystem()->mapLogicalToScene(QPointF(d->curvesXMax, 0), AbstractCoordinateSystem::SuppressPageClipping); point.setX(point.x() + errorBarsCapSize); point = coordinateSystem()->mapSceneToLogical(point, AbstractCoordinateSystem::SuppressPageClipping); if (point.x() > d->curvesXMax) d->curvesXMax = point.x(); } d->curvesYMinMaxIsDirty = true; d->curvesXMinMaxIsDirty = false; } bool update = false; if (d->curvesXMin != d->xMin && d->curvesXMin != INFINITY) { d->xMin = d->curvesXMin; update = true; } if (d->curvesXMax != d->xMax && d->curvesXMax != -INFINITY) { d->xMax = d->curvesXMax; update = true; } if (update) { if (d->xMax == d->xMin) { //in case min and max are equal (e.g. if we plot a single point), subtract/add 10% of the value if (d->xMax != 0) { d->xMax = d->xMax*1.1; d->xMin = d->xMin*0.9; } else { d->xMax = 0.1; d->xMin = -0.1; } } else { double offset = (d->xMax - d->xMin)*d->autoScaleOffsetFactor; d->xMin -= offset; d->xMax += offset; } d->retransformScales(); } return update; } bool CartesianPlot::scaleAutoY() { Q_D(CartesianPlot); if (d->curvesYMinMaxIsDirty) { calculateCurvesYMinMax(false); // loop over all curves //loop over all histograms and determine the maximum y-value for (const auto* curve : this->children()) { if (!curve->isVisible()) continue; const double min = curve->getYMinimum(); if (d->curvesYMin > min) d->curvesYMin = min; const double max = curve->getYMaximum(); if (max > d->curvesYMax) d->curvesYMax = max; } // do it at the end, because it must be from the real min/max values double errorBarsCapSize = -1; for (auto* curve : this->children()) { if (curve->xErrorType() != XYCurve::ErrorType::NoError) { errorBarsCapSize = qMax(errorBarsCapSize, curve->errorBarsCapSize()); } } if (errorBarsCapSize > 0) { if (d->curvesYMin != d->yMin && d->curvesYMin != INFINITY) d->yMin = d->curvesYMin; if (d->curvesYMax != d->yMax && d->curvesYMax != -INFINITY) d->yMax = d->curvesYMax; setIsLoading(true); d->retransformScales(); setIsLoading(false); QPointF point = coordinateSystem()->mapLogicalToScene(QPointF(0, d->curvesYMin), AbstractCoordinateSystem::SuppressPageClipping); point.setY(point.y() + errorBarsCapSize); point = coordinateSystem()->mapSceneToLogical(point, AbstractCoordinateSystem::SuppressPageClipping); if (point.y() < d->curvesYMin) d->curvesYMin = point.y(); point = coordinateSystem()->mapLogicalToScene(QPointF(0, d->curvesYMax), AbstractCoordinateSystem::SuppressPageClipping); point.setY(point.y() - errorBarsCapSize); point = coordinateSystem()->mapSceneToLogical(point, AbstractCoordinateSystem::SuppressPageClipping); if (point.y() > d->curvesYMax) d->curvesYMax = point.y(); } d->curvesXMinMaxIsDirty = true; d->curvesYMinMaxIsDirty = false; } bool update = false; if (d->curvesYMin != d->yMin && d->curvesYMin != INFINITY) { d->yMin = d->curvesYMin; update = true; } if (d->curvesYMax != d->yMax && d->curvesYMax != -INFINITY) { d->yMax = d->curvesYMax; update = true; } if (update) { if (d->yMax == d->yMin) { //in case min and max are equal (e.g. if we plot a single point), subtract/add 10% of the value if (d->yMax != 0) { d->yMax = d->yMax*1.1; d->yMin = d->yMin*0.9; } else { d->yMax = 0.1; d->yMin = -0.1; } } else { double offset = (d->yMax - d->yMin)*d->autoScaleOffsetFactor; d->yMin -= offset; d->yMax += offset; } d->retransformScales(); } return update; } void CartesianPlot::scaleAutoTriggered() { QAction* action = dynamic_cast(QObject::sender()); if (!action) return; if (action == scaleAutoAction) scaleAuto(); else if (action == scaleAutoXAction) setAutoScaleX(true); else if (action == scaleAutoYAction) setAutoScaleY(true); } bool CartesianPlot::scaleAuto() { DEBUG("CartesianPlot::scaleAuto()"); Q_D(CartesianPlot); if (d->curvesXMinMaxIsDirty) { calculateCurvesXMinMax(); double errorBarsCapSize = -1; for (auto* curve : this->children()) { if (curve->yErrorType() != XYCurve::ErrorType::NoError) { errorBarsCapSize = qMax(errorBarsCapSize, curve->errorBarsCapSize()); } } if (errorBarsCapSize > 0) { if (d->curvesXMin != d->xMin && d->curvesXMin != INFINITY) d->xMin = d->curvesXMin; if (d->curvesXMax != d->xMax && d->curvesXMax != -INFINITY) d->xMax = d->curvesXMax; setIsLoading(true); d->retransformScales(); setIsLoading(false); QPointF point = coordinateSystem()->mapLogicalToScene(QPointF(d->curvesXMin, 0), AbstractCoordinateSystem::SuppressPageClipping); point.setX(point.x() - errorBarsCapSize); point = coordinateSystem()->mapSceneToLogical(point, AbstractCoordinateSystem::SuppressPageClipping); if (point.x() < d->curvesXMin) d->curvesXMin = point.x(); point = coordinateSystem()->mapLogicalToScene(QPointF(d->curvesXMax, 0), AbstractCoordinateSystem::SuppressPageClipping); point.setX(point.x() + errorBarsCapSize); point = coordinateSystem()->mapSceneToLogical(point, AbstractCoordinateSystem::SuppressPageClipping); if (point.x() > d->curvesXMax) d->curvesXMax = point.x(); } d->curvesXMinMaxIsDirty = false; } if (d->curvesYMinMaxIsDirty) { calculateCurvesYMinMax(); double errorBarsCapSize = -1; for (auto* curve : this->children()) { if (curve->xErrorType() != XYCurve::ErrorType::NoError) { errorBarsCapSize = qMax(errorBarsCapSize, curve->errorBarsCapSize()); } } if (errorBarsCapSize > 0) { if (d->curvesYMin != d->yMin && d->curvesYMin != INFINITY) d->yMin = d->curvesYMin; if (d->curvesYMax != d->yMax && d->curvesYMax != -INFINITY) d->yMax = d->curvesYMax; setIsLoading(true); d->retransformScales(); setIsLoading(false); QPointF point = coordinateSystem()->mapLogicalToScene(QPointF(0, d->curvesYMin), AbstractCoordinateSystem::SuppressPageClipping); point.setY(point.y() + errorBarsCapSize); point = coordinateSystem()->mapSceneToLogical(point, AbstractCoordinateSystem::SuppressPageClipping); if (point.y() < d->curvesYMin) d->curvesYMin = point.y(); point = coordinateSystem()->mapLogicalToScene(QPointF(0, d->curvesYMax), AbstractCoordinateSystem::SuppressPageClipping); point.setY(point.y() - errorBarsCapSize); point = coordinateSystem()->mapSceneToLogical(point, AbstractCoordinateSystem::SuppressPageClipping); if (point.y() > d->curvesYMax) d->curvesYMax = point.y(); } d->curvesYMinMaxIsDirty = false; } bool updateX = false; bool updateY = false; if (d->curvesXMin != d->xMin && d->curvesXMin != INFINITY) { d->xMin = d->curvesXMin; updateX = true; } if (d->curvesXMax != d->xMax && d->curvesXMax != -INFINITY) { d->xMax = d->curvesXMax; updateX = true; } if (d->curvesYMin != d->yMin && d->curvesYMin != INFINITY) { d->yMin = d->curvesYMin; updateY = true; } if (d->curvesYMax != d->yMax && d->curvesYMax != -INFINITY) { d->yMax = d->curvesYMax; updateY = true; } DEBUG(" xmin/xmax = " << d->xMin << '/' << d->xMax << ", ymin/ymax = " << d->yMin << '/' << d->yMax); if (updateX || updateY) { if (updateX) { if (d->xMax == d->xMin) { //in case min and max are equal (e.g. if we plot a single point), subtract/add 10% of the value if (d->xMax != 0) { d->xMax = d->xMax*1.1; d->xMin = d->xMin*0.9; } else { d->xMax = 0.1; d->xMin = -0.1; } } else { double offset = (d->xMax - d->xMin)*d->autoScaleOffsetFactor; d->xMin -= offset; d->xMax += offset; } setAutoScaleX(true); } if (updateY) { if (d->yMax == d->yMin) { //in case min and max are equal (e.g. if we plot a single point), subtract/add 10% of the value if (d->yMax != 0) { d->yMax = d->yMax*1.1; d->yMin = d->yMin*0.9; } else { d->yMax = 0.1; d->yMin = -0.1; } } else { double offset = (d->yMax - d->yMin)*d->autoScaleOffsetFactor; d->yMin -= offset; d->yMax += offset; } setAutoScaleY(true); } d->retransformScales(); } return (updateX || updateY); } /*! * Calculates and sets curves y min and max. This function does not respect the range * of the y axis */ void CartesianPlot::calculateCurvesXMinMax(bool completeRange) { Q_D(CartesianPlot); d->curvesXMin = INFINITY; d->curvesXMax = -INFINITY; //loop over all xy-curves and determine the maximum and minimum x-values for (const auto* curve : this->children()) { if (!curve->isVisible()) continue; auto* xColumn = curve->xColumn(); if (!xColumn) continue; double min = d->curvesXMin; double max = d->curvesXMax; int start =0; int end = 0; if (d->rangeType == CartesianPlot::RangeFree && curve->yColumn() && !completeRange) { curve->yColumn()->indicesMinMax(yMin(), yMax(), start, end); if (end < curve->yColumn()->rowCount()) end ++; } else { switch (d->rangeType) { case CartesianPlot::RangeFree: start = 0; end = xColumn->rowCount(); break; case CartesianPlot::RangeLast: start = xColumn->rowCount() - d->rangeLastValues; end = xColumn->rowCount(); break; case CartesianPlot::RangeFirst: start = 0; end = d->rangeFirstValues; break; } } curve->minMaxX(start, end, min, max, true); if (min < d->curvesXMin) d->curvesXMin = min; if (max > d->curvesXMax) d->curvesXMax = max; } //loop over all histograms and determine the maximum and minimum x-values for (const auto* curve : this->children()) { if (!curve->isVisible()) continue; if (!curve->dataColumn()) continue; const double min = curve->getXMinimum(); if (d->curvesXMin > min) d->curvesXMin = min; const double max = curve->getXMaximum(); if (max > d->curvesXMax) d->curvesXMax = max; } } /*! * Calculates and sets curves y min and max. This function does not respect the range * of the x axis */ void CartesianPlot::calculateCurvesYMinMax(bool completeRange) { Q_D(CartesianPlot); d->curvesYMin = INFINITY; d->curvesYMax = -INFINITY; double min = d->curvesYMin; double max = d->curvesYMax; //loop over all xy-curves and determine the maximum and minimum y-values for (const auto* curve : this->children()) { if (!curve->isVisible()) continue; auto* yColumn = curve->yColumn(); if (!yColumn) continue; int start =0; int end = 0; if (d->rangeType == CartesianPlot::RangeFree && curve->xColumn() && !completeRange) { curve->xColumn()->indicesMinMax(xMin(), xMax(), start, end); if (end < curve->xColumn()->rowCount()) end ++; // because minMaxY excludes indexMax } else { switch (d->rangeType) { case CartesianPlot::RangeFree: start = 0; end = yColumn->rowCount(); break; case CartesianPlot::RangeLast: start = yColumn->rowCount() - d->rangeLastValues; end = yColumn->rowCount(); break; case CartesianPlot::RangeFirst: start = 0; end = d->rangeFirstValues; break; } } curve->minMaxY(start, end, min, max, true); if (min < d->curvesYMin) d->curvesYMin = min; if (max > d->curvesYMax) d->curvesYMax = max; } //loop over all histograms and determine the maximum y-value for (const auto* curve : this->children()) { if (!curve->isVisible()) continue; const double min = curve->getYMinimum(); if (d->curvesYMin > min) d->curvesYMin = min; const double max = curve->getYMaximum(); if (max > d->curvesYMax) d->curvesYMax = max; } } void CartesianPlot::zoomIn() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleX(false); setAutoScaleY(false); setUndoAware(true); d->curvesXMinMaxIsDirty = true; d->curvesYMinMaxIsDirty = true; double oldRange = (d->xMax - d->xMin); double newRange = (d->xMax - d->xMin) / m_zoomFactor; d->xMax = d->xMax + (newRange - oldRange) / 2; d->xMin = d->xMin - (newRange - oldRange) / 2; oldRange = (d->yMax - d->yMin); newRange = (d->yMax - d->yMin) / m_zoomFactor; d->yMax = d->yMax + (newRange - oldRange) / 2; d->yMin = d->yMin - (newRange - oldRange) / 2; d->retransformScales(); } void CartesianPlot::zoomOut() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleX(false); setAutoScaleY(false); setUndoAware(true); d->curvesXMinMaxIsDirty = true; d->curvesYMinMaxIsDirty = true; double oldRange = (d->xMax-d->xMin); double newRange = (d->xMax-d->xMin)*m_zoomFactor; d->xMax = d->xMax + (newRange-oldRange)/2; d->xMin = d->xMin - (newRange-oldRange)/2; oldRange = (d->yMax-d->yMin); newRange = (d->yMax-d->yMin)*m_zoomFactor; d->yMax = d->yMax + (newRange-oldRange)/2; d->yMin = d->yMin - (newRange-oldRange)/2; d->retransformScales(); } void CartesianPlot::zoomInX() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleX(false); setUndoAware(true); d->curvesYMinMaxIsDirty = true; double oldRange = (d->xMax-d->xMin); double newRange = (d->xMax-d->xMin)/m_zoomFactor; d->xMax = d->xMax + (newRange-oldRange)/2; d->xMin = d->xMin - (newRange-oldRange)/2; if (d->autoScaleY && autoScaleY()) return; d->retransformScales(); } void CartesianPlot::zoomOutX() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleX(false); setUndoAware(true); d->curvesYMinMaxIsDirty = true; double oldRange = (d->xMax-d->xMin); double newRange = (d->xMax-d->xMin)*m_zoomFactor; d->xMax = d->xMax + (newRange-oldRange)/2; d->xMin = d->xMin - (newRange-oldRange)/2; if (d->autoScaleY && autoScaleY()) return; d->retransformScales(); } void CartesianPlot::zoomInY() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleY(false); setUndoAware(true); d->curvesYMinMaxIsDirty = true; double oldRange = (d->yMax-d->yMin); double newRange = (d->yMax-d->yMin)/m_zoomFactor; d->yMax = d->yMax + (newRange-oldRange)/2; d->yMin = d->yMin - (newRange-oldRange)/2; if (d->autoScaleX && autoScaleX()) return; d->retransformScales(); } void CartesianPlot::zoomOutY() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleY(false); setUndoAware(true); d->curvesYMinMaxIsDirty = true; double oldRange = (d->yMax-d->yMin); double newRange = (d->yMax-d->yMin)*m_zoomFactor; d->yMax = d->yMax + (newRange-oldRange)/2; d->yMin = d->yMin - (newRange-oldRange)/2; if (d->autoScaleX && autoScaleX()) return; d->retransformScales(); } void CartesianPlot::shiftLeftX() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleX(false); setUndoAware(true); d->curvesYMinMaxIsDirty = true; double offsetX = (d->xMax-d->xMin)*0.1; d->xMax -= offsetX; d->xMin -= offsetX; if (d->autoScaleY && scaleAutoY()) return; d->retransformScales(); } void CartesianPlot::shiftRightX() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleX(false); setUndoAware(true); d->curvesYMinMaxIsDirty = true; double offsetX = (d->xMax-d->xMin)*0.1; d->xMax += offsetX; d->xMin += offsetX; if (d->autoScaleY && scaleAutoY()) return; d->retransformScales(); } void CartesianPlot::shiftUpY() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleY(false); setUndoAware(true); d->curvesXMinMaxIsDirty = true; double offsetY = (d->yMax-d->yMin)*0.1; d->yMax += offsetY; d->yMin += offsetY; if (d->autoScaleX && scaleAutoX()) return; d->retransformScales(); } void CartesianPlot::shiftDownY() { Q_D(CartesianPlot); setUndoAware(false); setAutoScaleY(false); setUndoAware(true); d->curvesXMinMaxIsDirty = true; double offsetY = (d->yMax-d->yMin)*0.1; d->yMax -= offsetY; d->yMin -= offsetY; if (d->autoScaleX && scaleAutoX()) return; d->retransformScales(); } void CartesianPlot::cursor() { Q_D(CartesianPlot); d->retransformScales(); } void CartesianPlot::mousePressZoomSelectionMode(QPointF logicPos) { Q_D(CartesianPlot); d->mousePressZoomSelectionMode(logicPos); } void CartesianPlot::mousePressCursorMode(int cursorNumber, QPointF logicPos) { Q_D(CartesianPlot); d->mousePressCursorMode(cursorNumber, logicPos); } void CartesianPlot::mouseMoveZoomSelectionMode(QPointF logicPos) { Q_D(CartesianPlot); d->mouseMoveZoomSelectionMode(logicPos); } void CartesianPlot::mouseMoveCursorMode(int cursorNumber, QPointF logicPos) { Q_D(CartesianPlot); d->mouseMoveCursorMode(cursorNumber, logicPos); } void CartesianPlot::mouseReleaseZoomSelectionMode() { Q_D(CartesianPlot); d->mouseReleaseZoomSelectionMode(); } void CartesianPlot::mouseHoverZoomSelectionMode(QPointF logicPos) { Q_D(CartesianPlot); d->mouseHoverZoomSelectionMode(logicPos); } void CartesianPlot::mouseHoverOutsideDataRect() { Q_D(CartesianPlot); d->mouseHoverOutsideDataRect(); } //############################################################################## //###### SLOTs for changes triggered via QActions in the context menu ######## //############################################################################## void CartesianPlot::visibilityChanged() { Q_D(CartesianPlot); this->setVisible(!d->isVisible()); } //##################################################################### //################### Private implementation ########################## //##################################################################### CartesianPlotPrivate::CartesianPlotPrivate(CartesianPlot* plot) : AbstractPlotPrivate(plot), q(plot) { setData(0, WorksheetElement::NameCartesianPlot); m_cursor0Text.prepare(); m_cursor1Text.prepare(); } /*! updates the position of plot rectangular in scene coordinates to \c r and recalculates the scales. The size of the plot corresponds to the size of the plot area, the area which is filled with the background color etc. and which can pose the parent item for several sub-items (like TextLabel). Note, the size of the area used to define the coordinate system doesn't need to be equal to this plot area. Also, the size (=bounding box) of CartesianPlot can be greater than the size of the plot area. */ void CartesianPlotPrivate::retransform() { if (suppressRetransform) return; PERFTRACE("CartesianPlotPrivate::retransform()"); prepareGeometryChange(); setPos( rect.x()+rect.width()/2, rect.y()+rect.height()/2); updateDataRect(); retransformScales(); //plotArea position is always (0, 0) in parent's coordinates, don't need to update here q->plotArea()->setRect(rect); //call retransform() for the title and the legend (if available) //when a predefined position relative to the (Left, Centered etc.) is used, //the actual position needs to be updated on plot's geometry changes. if (q->title()) q->title()->retransform(); if (q->m_legend) q->m_legend->retransform(); WorksheetElementContainerPrivate::recalcShapeAndBoundingRect(); } void CartesianPlotPrivate::retransformScales() { DEBUG("CartesianPlotPrivate::retransformScales()"); DEBUG(" xmin/xmax = " << xMin << '/'<< xMax << ", ymin/ymax = " << yMin << '/' << yMax); PERFTRACE("CartesianPlotPrivate::retransformScales()"); auto* plot = dynamic_cast(q); QVector scales; //check ranges for log-scales if (xScale != CartesianPlot::ScaleLinear) checkXRange(); //check whether we have x-range breaks - the first break, if available, should be valid bool hasValidBreak = (xRangeBreakingEnabled && !xRangeBreaks.list.isEmpty() && xRangeBreaks.list.first().isValid()); static const int breakGap = 20; double sceneStart, sceneEnd, logicalStart, logicalEnd; //create x-scales int plotSceneStart = dataRect.x(); int plotSceneEnd = dataRect.x() + dataRect.width(); if (!hasValidBreak) { //no breaks available -> range goes from the plot beginning to the end of the plot sceneStart = plotSceneStart; sceneEnd = plotSceneEnd; logicalStart = xMin; logicalEnd = xMax; //TODO: how should we handle the case sceneStart == sceneEnd? //(to reproduce, create plots and adjust the spacing/pading to get zero size for the plots) if (sceneStart != sceneEnd) scales << this->createScale(xScale, sceneStart, sceneEnd, logicalStart, logicalEnd); } else { int sceneEndLast = plotSceneStart; int logicalEndLast = xMin; for (const auto& rb : xRangeBreaks.list) { if (!rb.isValid()) break; //current range goes from the end of the previous one (or from the plot beginning) to curBreak.start sceneStart = sceneEndLast; if (&rb == &xRangeBreaks.list.first()) sceneStart += breakGap; sceneEnd = plotSceneStart + (plotSceneEnd-plotSceneStart) * rb.position; logicalStart = logicalEndLast; logicalEnd = rb.start; if (sceneStart != sceneEnd) scales << this->createScale(xScale, sceneStart, sceneEnd, logicalStart, logicalEnd); sceneEndLast = sceneEnd; logicalEndLast = rb.end; } //add the remaining range going from the last available range break to the end of the plot (=end of the x-data range) sceneStart = sceneEndLast+breakGap; sceneEnd = plotSceneEnd; logicalStart = logicalEndLast; logicalEnd = xMax; if (sceneStart != sceneEnd) scales << this->createScale(xScale, sceneStart, sceneEnd, logicalStart, logicalEnd); } cSystem->setXScales(scales); //check ranges for log-scales if (yScale != CartesianPlot::ScaleLinear) checkYRange(); //check whether we have y-range breaks - the first break, if available, should be valid hasValidBreak = (yRangeBreakingEnabled && !yRangeBreaks.list.isEmpty() && yRangeBreaks.list.first().isValid()); //create y-scales scales.clear(); plotSceneStart = dataRect.y() + dataRect.height(); plotSceneEnd = dataRect.y(); if (!hasValidBreak) { //no breaks available -> range goes from the plot beginning to the end of the plot sceneStart = plotSceneStart; sceneEnd = plotSceneEnd; logicalStart = yMin; logicalEnd = yMax; if (sceneStart != sceneEnd) scales << this->createScale(yScale, sceneStart, sceneEnd, logicalStart, logicalEnd); } else { int sceneEndLast = plotSceneStart; int logicalEndLast = yMin; for (const auto& rb : yRangeBreaks.list) { if (!rb.isValid()) break; //current range goes from the end of the previous one (or from the plot beginning) to curBreak.start sceneStart = sceneEndLast; if (&rb == &yRangeBreaks.list.first()) sceneStart -= breakGap; sceneEnd = plotSceneStart + (plotSceneEnd-plotSceneStart) * rb.position; logicalStart = logicalEndLast; logicalEnd = rb.start; if (sceneStart != sceneEnd) scales << this->createScale(yScale, sceneStart, sceneEnd, logicalStart, logicalEnd); sceneEndLast = sceneEnd; logicalEndLast = rb.end; } //add the remaining range going from the last available range break to the end of the plot (=end of the y-data range) sceneStart = sceneEndLast-breakGap; sceneEnd = plotSceneEnd; logicalStart = logicalEndLast; logicalEnd = yMax; if (sceneStart != sceneEnd) scales << this->createScale(yScale, sceneStart, sceneEnd, logicalStart, logicalEnd); } cSystem->setYScales(scales); //calculate the changes in x and y and save the current values for xMin, xMax, yMin, yMax double deltaXMin = 0; double deltaXMax = 0; double deltaYMin = 0; double deltaYMax = 0; if (xMin != xMinPrev) { deltaXMin = xMin - xMinPrev; emit plot->xMinChanged(xMin); } if (xMax != xMaxPrev) { deltaXMax = xMax - xMaxPrev; emit plot->xMaxChanged(xMax); } if (yMin != yMinPrev) { deltaYMin = yMin - yMinPrev; emit plot->yMinChanged(yMin); } if (yMax != yMaxPrev) { deltaYMax = yMax - yMaxPrev; emit plot->yMaxChanged(yMax); } xMinPrev = xMin; xMaxPrev = xMax; yMinPrev = yMin; yMaxPrev = yMax; //adjust auto-scale axes for (auto* axis : q->children()) { if (!axis->autoScale()) continue; if (axis->orientation() == Axis::AxisHorizontal) { if (deltaXMax != 0) { axis->setUndoAware(false); axis->setSuppressRetransform(true); axis->setEnd(xMax); axis->setUndoAware(true); axis->setSuppressRetransform(false); } if (deltaXMin != 0) { axis->setUndoAware(false); axis->setSuppressRetransform(true); axis->setStart(xMin); axis->setUndoAware(true); axis->setSuppressRetransform(false); } //TODO; // if (axis->position() == Axis::AxisCustom && deltaYMin != 0) { // axis->setOffset(axis->offset() + deltaYMin, false); // } } else { if (deltaYMax != 0) { axis->setUndoAware(false); axis->setSuppressRetransform(true); axis->setEnd(yMax); axis->setUndoAware(true); axis->setSuppressRetransform(false); } if (deltaYMin != 0) { axis->setUndoAware(false); axis->setSuppressRetransform(true); axis->setStart(yMin); axis->setUndoAware(true); axis->setSuppressRetransform(false); } //TODO; // if (axis->position() == Axis::AxisCustom && deltaXMin != 0) { // axis->setOffset(axis->offset() + deltaXMin, false); // } } } // call retransform() on the parent to trigger the update of all axes and curves. //no need to do this on load since all plots are retransformed again after the project is loaded. if (!q->isLoading()) q->retransform(); } /* * calculates the rectangular of the are showing the actual data (plot's rect minus padding), * in plot's coordinates. */ void CartesianPlotPrivate::updateDataRect() { dataRect = mapRectFromScene(rect); double paddingLeft = horizontalPadding; double paddingRight = rightPadding; double paddingTop = verticalPadding; double paddingBottom = bottomPadding; if (symmetricPadding) { paddingRight = horizontalPadding; paddingBottom = verticalPadding; } dataRect.setX(dataRect.x() + paddingLeft); dataRect.setY(dataRect.y() + paddingTop); double newHeight = dataRect.height() - paddingBottom; if (newHeight < 0) newHeight = 0; dataRect.setHeight(newHeight); double newWidth = dataRect.width() - paddingRight; if (newWidth < 0) newWidth = 0; dataRect.setWidth(newWidth); } void CartesianPlotPrivate::rangeChanged() { curvesXMinMaxIsDirty = true; curvesYMinMaxIsDirty = true; if (autoScaleX && autoScaleY) q->scaleAuto(); else if (autoScaleX) q->scaleAutoX(); else if (autoScaleY) q->scaleAutoY(); } void CartesianPlotPrivate::xRangeFormatChanged() { for (auto* axis : q->children()) { if (axis->orientation() == Axis::AxisHorizontal) axis->retransformTickLabelStrings(); } } void CartesianPlotPrivate::yRangeFormatChanged() { for (auto* axis : q->children()) { if (axis->orientation() == Axis::AxisVertical) axis->retransformTickLabelStrings(); } } /*! * don't allow any negative values for the x range when log or sqrt scalings are used */ void CartesianPlotPrivate::checkXRange() { double min = 0.01; if (xMin <= 0.0) { (min < xMax*min) ? xMin = min : xMin = xMax*min; emit q->xMinChanged(xMin); } else if (xMax <= 0.0) { (-min > xMin*min) ? xMax = -min : xMax = xMin*min; emit q->xMaxChanged(xMax); } } /*! * don't allow any negative values for the y range when log or sqrt scalings are used */ void CartesianPlotPrivate::checkYRange() { double min = 0.01; if (yMin <= 0.0) { (min < yMax*min) ? yMin = min : yMin = yMax*min; emit q->yMinChanged(yMin); } else if (yMax <= 0.0) { (-min > yMin*min) ? yMax = -min : yMax = yMin*min; emit q->yMaxChanged(yMax); } } CartesianScale* CartesianPlotPrivate::createScale(CartesianPlot::Scale type, double sceneStart, double sceneEnd, double logicalStart, double logicalEnd) { DEBUG("CartesianPlotPrivate::createScale() scene start/end = " << sceneStart << '/' << sceneEnd << ", logical start/end = " << logicalStart << '/' << logicalEnd); // Interval interval (logicalStart-0.01, logicalEnd+0.01); //TODO: move this to CartesianScale Interval interval (std::numeric_limits::lowest(), std::numeric_limits::max()); // Interval interval (logicalStart, logicalEnd); if (type == CartesianPlot::ScaleLinear) return CartesianScale::createLinearScale(interval, sceneStart, sceneEnd, logicalStart, logicalEnd); else return CartesianScale::createLogScale(interval, sceneStart, sceneEnd, logicalStart, logicalEnd, type); } /*! * Reimplemented from QGraphicsItem. */ QVariant CartesianPlotPrivate::itemChange(GraphicsItemChange change, const QVariant &value) { if (change == QGraphicsItem::ItemPositionChange) { const QPointF& itemPos = value.toPointF();//item's center point in parent's coordinates; const qreal x = itemPos.x(); const qreal y = itemPos.y(); //calculate the new rect and forward the changes to the frontend QRectF newRect; const qreal w = rect.width(); const qreal h = rect.height(); newRect.setX(x-w/2); newRect.setY(y-h/2); newRect.setWidth(w); newRect.setHeight(h); emit q->rectChanged(newRect); } return QGraphicsItem::itemChange(change, value); } //############################################################################## //################################## Events ################################## //############################################################################## /*! * \brief CartesianPlotPrivate::mousePressEvent * In this function only basic stuff is done. The mousePressEvent is forwarded to the Worksheet, which * has access to all cartesian plots and can apply the changes to all plots if the option "applyToAll" * is set. The worksheet calls then the corresponding mousepressZoomMode/CursorMode function in this class * This is done for mousePress, mouseMove and mouseRelease event * This function sends a signal with the logical position, because this is the only value which is the same * in all plots. Using the scene coordinates is not possible * \param event */ void CartesianPlotPrivate::mousePressEvent(QGraphicsSceneMouseEvent *event) { if (mouseMode == CartesianPlot::ZoomSelectionMode || mouseMode == CartesianPlot::ZoomXSelectionMode || mouseMode == CartesianPlot::ZoomYSelectionMode) emit q->mousePressZoomSelectionModeSignal(cSystem->mapSceneToLogical(event->pos(), AbstractCoordinateSystem::MappingFlag::Limit)); else if (mouseMode == CartesianPlot::Cursor) { setCursor(Qt::SizeHorCursor); QPointF logicalPos = cSystem->mapSceneToLogical(event->pos(), AbstractCoordinateSystem::MappingFlag::Limit); double cursorPenWidth2 = cursorPen.width()/2.; if (cursorPenWidth2 < 10.) cursorPenWidth2 = 10.; if (cursor0Enable && qAbs(event->pos().x()-cSystem->mapLogicalToScene(QPointF(cursor0Pos.x(),yMin)).x()) < cursorPenWidth2) { selectedCursor = 0; } else if (cursor1Enable && qAbs(event->pos().x()-cSystem->mapLogicalToScene(QPointF(cursor1Pos.x(),yMin)).x()) < cursorPenWidth2) { selectedCursor = 1; } else if (QApplication::keyboardModifiers() & Qt::ControlModifier){ cursor1Enable = true; selectedCursor = 1; emit q->cursor1EnableChanged(cursor1Enable); } else { cursor0Enable = true; selectedCursor = 0; emit q->cursor0EnableChanged(cursor0Enable); } emit q->mousePressCursorModeSignal(selectedCursor, logicalPos); } else { if (!locked && dataRect.contains(event->pos())) { panningStarted = true; m_panningStart = event->pos(); setCursor(Qt::ClosedHandCursor); } } QGraphicsItem::mousePressEvent(event); } void CartesianPlotPrivate::mousePressZoomSelectionMode(QPointF logicalPos) { if (mouseMode == CartesianPlot::ZoomSelectionMode) { if (logicalPos.x() < xMin) logicalPos.setX(xMin); if (logicalPos.x() > xMax) logicalPos.setX(xMax); if (logicalPos.y() < yMin) logicalPos.setY(yMin); if (logicalPos.y() > yMax) logicalPos.setY(yMax); m_selectionStart = cSystem->mapLogicalToScene(logicalPos, CartesianCoordinateSystem::SuppressPageClipping); } else if (mouseMode == CartesianPlot::ZoomXSelectionMode) { logicalPos.setY(yMin); // must be done, because the other plots can have other ranges, value must be in the scenes m_selectionStart.setX(cSystem->mapLogicalToScene(logicalPos, CartesianCoordinateSystem::SuppressPageClipping).x()); m_selectionStart.setY(dataRect.y()); } else if (mouseMode == CartesianPlot::ZoomYSelectionMode) { logicalPos.setX(xMin); // must be done, because the other plots can have other ranges, value must be in the scenes m_selectionStart.setX(dataRect.x()); m_selectionStart.setY(cSystem->mapLogicalToScene(logicalPos, CartesianCoordinateSystem::SuppressPageClipping).y()); } m_selectionEnd = m_selectionStart; m_selectionBandIsShown = true; } void CartesianPlotPrivate::mousePressCursorMode(int cursorNumber, QPointF logicalPos) { cursorNumber == 0 ? cursor0Enable = true : cursor1Enable = true; QPointF p1(logicalPos.x(), yMin); QPointF p2(logicalPos.x(), yMax); if (cursorNumber == 0) { cursor0Pos.setX(logicalPos.x()); cursor0Pos.setY(0); } else { cursor1Pos.setX(logicalPos.x()); cursor1Pos.setY(0); } update(); } void CartesianPlotPrivate::updateCursor() { update(); } void CartesianPlotPrivate::setZoomSelectionBandShow(bool show) { m_selectionBandIsShown = show; } void CartesianPlotPrivate::mouseMoveEvent(QGraphicsSceneMouseEvent* event) { if (mouseMode == CartesianPlot::SelectionMode) { if (panningStarted && dataRect.contains(event->pos()) ) { //don't retransform on small mouse movement deltas const int deltaXScene = (m_panningStart.x() - event->pos().x()); const int deltaYScene = (m_panningStart.y() - event->pos().y()); if (abs(deltaXScene) < 5 && abs(deltaYScene) < 5) return; const QPointF logicalEnd = cSystem->mapSceneToLogical(event->pos()); const QPointF logicalStart = cSystem->mapSceneToLogical(m_panningStart); const float deltaX = (logicalStart.x() - logicalEnd.x()); const float deltaY = (logicalStart.y() - logicalEnd.y()); xMax += deltaX; xMin += deltaX; yMax += deltaY; yMin += deltaY; q->setUndoAware(false); q->setAutoScaleX(false); q->setAutoScaleY(false); q->setUndoAware(true); retransformScales(); m_panningStart = event->pos(); } else QGraphicsItem::mouseMoveEvent(event); } else if (mouseMode == CartesianPlot::ZoomSelectionMode || mouseMode == CartesianPlot::ZoomXSelectionMode || mouseMode == CartesianPlot::ZoomYSelectionMode) { QGraphicsItem::mouseMoveEvent(event); if ( !boundingRect().contains(event->pos()) ) { q->info(QString()); return; } emit q->mouseMoveZoomSelectionModeSignal(cSystem->mapSceneToLogical(event->pos(), CartesianCoordinateSystem::MappingFlag::Limit)); } else if (mouseMode == CartesianPlot::Cursor) { QGraphicsItem::mouseMoveEvent(event); if (!boundingRect().contains(event->pos())) { q->info(i18n("Not inside of the bounding rect")); return; } QPointF logicalPos = cSystem->mapSceneToLogical(event->pos(), AbstractCoordinateSystem::MappingFlag::Limit); // updating treeview data and cursor position // updatign cursor position is done in Worksheet, because // multiple plots must be updated emit q->mouseMoveCursorModeSignal(selectedCursor, logicalPos); } } void CartesianPlotPrivate::mouseMoveZoomSelectionMode(QPointF logicalPos) { QString info; QPointF logicalStart = cSystem->mapSceneToLogical(m_selectionStart, CartesianCoordinateSystem::MappingFlag::SuppressPageClipping); if (mouseMode == CartesianPlot::ZoomSelectionMode) { m_selectionEnd = cSystem->mapLogicalToScene(logicalPos, CartesianCoordinateSystem::MappingFlag::SuppressPageClipping); QPointF logicalEnd = logicalPos; if (xRangeFormat == CartesianPlot::Numeric) info = QString::fromUtf8("Δx=") + QString::number(logicalEnd.x()-logicalStart.x()); else info = i18n("from x=%1 to x=%2", QDateTime::fromMSecsSinceEpoch(logicalStart.x()).toString(xRangeDateTimeFormat), QDateTime::fromMSecsSinceEpoch(logicalEnd.x()).toString(xRangeDateTimeFormat)); info += QLatin1String(", "); if (yRangeFormat == CartesianPlot::Numeric) info += QString::fromUtf8("Δy=") + QString::number(logicalEnd.y()-logicalStart.y()); else info += i18n("from y=%1 to y=%2", QDateTime::fromMSecsSinceEpoch(logicalStart.y()).toString(xRangeDateTimeFormat), QDateTime::fromMSecsSinceEpoch(logicalEnd.y()).toString(xRangeDateTimeFormat)); } else if (mouseMode == CartesianPlot::ZoomXSelectionMode) { logicalPos.setY(yMin); // must be done, because the other plots can have other ranges, value must be in the scenes m_selectionEnd.setX(cSystem->mapLogicalToScene(logicalPos, CartesianCoordinateSystem::MappingFlag::SuppressPageClipping).x());//event->pos().x()); m_selectionEnd.setY(dataRect.bottom()); QPointF logicalEnd = logicalPos; if (xRangeFormat == CartesianPlot::Numeric) info = QString::fromUtf8("Δx=") + QString::number(logicalEnd.x()-logicalStart.x()); else info = i18n("from x=%1 to x=%2", QDateTime::fromMSecsSinceEpoch(logicalStart.x()).toString(xRangeDateTimeFormat), QDateTime::fromMSecsSinceEpoch(logicalEnd.x()).toString(xRangeDateTimeFormat)); } else if (mouseMode == CartesianPlot::ZoomYSelectionMode) { m_selectionEnd.setX(dataRect.right()); logicalPos.setX(xMin); // must be done, because the other plots can have other ranges, value must be in the scenes m_selectionEnd.setY(cSystem->mapLogicalToScene(logicalPos, CartesianCoordinateSystem::MappingFlag::SuppressPageClipping).y());//event->pos().y()); QPointF logicalEnd = logicalPos; if (yRangeFormat == CartesianPlot::Numeric) info = QString::fromUtf8("Δy=") + QString::number(logicalEnd.y()-logicalStart.y()); else info = i18n("from y=%1 to y=%2", QDateTime::fromMSecsSinceEpoch(logicalStart.y()).toString(xRangeDateTimeFormat), QDateTime::fromMSecsSinceEpoch(logicalEnd.y()).toString(xRangeDateTimeFormat)); } q->info(info); update(); } void CartesianPlotPrivate::mouseMoveCursorMode(int cursorNumber, QPointF logicalPos) { QPointF p1(logicalPos.x(), 0); cursorNumber == 0 ? cursor0Pos = p1 : cursor1Pos = p1; QString info; if (xRangeFormat == CartesianPlot::Numeric) info = QString::fromUtf8("x=") + QString::number(logicalPos.x()); else info = i18n("x=%1", QDateTime::fromMSecsSinceEpoch(logicalPos.x()).toString(xRangeDateTimeFormat)); q->info(info); update(); } void CartesianPlotPrivate::mouseReleaseEvent(QGraphicsSceneMouseEvent* event) { setCursor(Qt::ArrowCursor); if (mouseMode == CartesianPlot::SelectionMode) { panningStarted = false; //TODO: why do we do this all the time?!?! const QPointF& itemPos = pos();//item's center point in parent's coordinates; const qreal x = itemPos.x(); const qreal y = itemPos.y(); //calculate the new rect and set it QRectF newRect; const qreal w = rect.width(); const qreal h = rect.height(); newRect.setX(x-w/2); newRect.setY(y-h/2); newRect.setWidth(w); newRect.setHeight(h); suppressRetransform = true; q->setRect(newRect); suppressRetransform = false; QGraphicsItem::mouseReleaseEvent(event); } else if (mouseMode == CartesianPlot::ZoomSelectionMode || mouseMode == CartesianPlot::ZoomXSelectionMode || mouseMode == CartesianPlot::ZoomYSelectionMode) { emit q->mouseReleaseZoomSelectionModeSignal(); } } void CartesianPlotPrivate::mouseReleaseZoomSelectionMode() { //don't zoom if very small region was selected, avoid occasional/unwanted zooming if ( qAbs(m_selectionEnd.x()-m_selectionStart.x()) < 20 || qAbs(m_selectionEnd.y()-m_selectionStart.y()) < 20 ) { m_selectionBandIsShown = false; return; } bool retransformPlot = true; //determine the new plot ranges QPointF logicalZoomStart = cSystem->mapSceneToLogical(m_selectionStart, AbstractCoordinateSystem::SuppressPageClipping); QPointF logicalZoomEnd = cSystem->mapSceneToLogical(m_selectionEnd, AbstractCoordinateSystem::SuppressPageClipping); if (m_selectionEnd.x() > m_selectionStart.x()) { xMin = logicalZoomStart.x(); xMax = logicalZoomEnd.x(); } else { xMin = logicalZoomEnd.x(); xMax = logicalZoomStart.x(); } if (m_selectionEnd.y() > m_selectionStart.y()) { yMin = logicalZoomEnd.y(); yMax = logicalZoomStart.y(); } else { yMin = logicalZoomStart.y(); yMax = logicalZoomEnd.y(); } if (mouseMode == CartesianPlot::ZoomSelectionMode) { curvesXMinMaxIsDirty = true; curvesYMinMaxIsDirty = true; q->setAutoScaleX(false); q->setAutoScaleY(false); } else if (mouseMode == CartesianPlot::ZoomXSelectionMode) { curvesYMinMaxIsDirty = true; q->setAutoScaleX(false); if (q->autoScaleY() && q->scaleAutoY()) retransformPlot = false; } else if (mouseMode == CartesianPlot::ZoomYSelectionMode) { curvesXMinMaxIsDirty = true; q->setAutoScaleY(false); if (q->autoScaleX() && q->scaleAutoX()) retransformPlot = false; } if (retransformPlot) retransformScales(); m_selectionBandIsShown = false; } void CartesianPlotPrivate::wheelEvent(QGraphicsSceneWheelEvent* event) { if (locked) return; //determine first, which axes are selected and zoom only in the corresponding direction. //zoom the entire plot if no axes selected. bool zoomX = false; bool zoomY = false; for (auto* axis : q->children()) { if (!axis->graphicsItem()->isSelected()) continue; if (axis->orientation() == Axis::AxisHorizontal) zoomX = true; else zoomY = true; } if (event->delta() > 0) { if (!zoomX && !zoomY) { //no special axis selected -> zoom in everything q->zoomIn(); } else { if (zoomX) q->zoomInX(); if (zoomY) q->zoomInY(); } } else { if (!zoomX && !zoomY) { //no special axis selected -> zoom in everything q->zoomOut(); } else { if (zoomX) q->zoomOutX(); if (zoomY) q->zoomOutY(); } } } void CartesianPlotPrivate::keyPressEvent(QKeyEvent* event) { if (event->key() == Qt::Key_Escape) { setCursor(Qt::ArrowCursor); q->setMouseMode(CartesianPlot::MouseMode::SelectionMode); m_selectionBandIsShown = false; } else if (event->key() == Qt::Key_Left || event->key() == Qt::Key_Right || event->key() == Qt::Key_Up ||event->key() == Qt::Key_Down) { const auto* worksheet = dynamic_cast(q->parentAspect()); if (worksheet->layout() == Worksheet::NoLayout) { const int delta = 5; QRectF rect = q->rect(); if (event->key() == Qt::Key_Left) { rect.setX(rect.x() - delta); rect.setWidth(rect.width() - delta); } else if (event->key() == Qt::Key_Right) { rect.setX(rect.x() + delta); rect.setWidth(rect.width() + delta); } else if (event->key() == Qt::Key_Up) { rect.setY(rect.y() - delta); rect.setHeight(rect.height() - delta); } else if (event->key() == Qt::Key_Down) { rect.setY(rect.y() + delta); rect.setHeight(rect.height() + delta); } q->setRect(rect); } } QGraphicsItem::keyPressEvent(event); } void CartesianPlotPrivate::hoverMoveEvent(QGraphicsSceneHoverEvent* event) { QPointF point = event->pos(); QString info; if (dataRect.contains(point)) { QPointF logicalPoint = cSystem->mapSceneToLogical(point); if ((mouseMode == CartesianPlot::ZoomSelectionMode) || mouseMode == CartesianPlot::SelectionMode) { info = "x="; if (xRangeFormat == CartesianPlot::Numeric) info += QString::number(logicalPoint.x()); else info += QDateTime::fromMSecsSinceEpoch(logicalPoint.x()).toString(xRangeDateTimeFormat); info += ", y="; if (yRangeFormat == CartesianPlot::Numeric) info += QString::number(logicalPoint.y()); else info += QDateTime::fromMSecsSinceEpoch(logicalPoint.y()).toString(yRangeDateTimeFormat); } if (mouseMode == CartesianPlot::ZoomSelectionMode && !m_selectionBandIsShown) { emit q->mouseHoverZoomSelectionModeSignal(logicalPoint); } else if (mouseMode == CartesianPlot::ZoomXSelectionMode && !m_selectionBandIsShown) { info = "x="; if (xRangeFormat == CartesianPlot::Numeric) info += QString::number(logicalPoint.x()); else info += QDateTime::fromMSecsSinceEpoch(logicalPoint.x()).toString(xRangeDateTimeFormat); emit q->mouseHoverZoomSelectionModeSignal(logicalPoint); } else if (mouseMode == CartesianPlot::ZoomYSelectionMode && !m_selectionBandIsShown) { info = "y="; if (yRangeFormat == CartesianPlot::Numeric) info += QString::number(logicalPoint.y()); else info += QDateTime::fromMSecsSinceEpoch(logicalPoint.y()).toString(yRangeDateTimeFormat); emit q->mouseHoverZoomSelectionModeSignal(logicalPoint); } else if (mouseMode == CartesianPlot::MouseMode::SelectionMode) { // hover the nearest curve to the mousepointer // hovering curves is implemented in the parent, because no ignoreEvent() exists // for it. Checking all curves and hover the first bool curve_hovered = false; QVector curves = q->children(); for (int i=curves.count() - 1; i >= 0; i--){ // because the last curve is above the other curves if (curve_hovered){ // if a curve is already hovered, disable hover for the rest curves[i]->setHover(false); continue; } if (curves[i]->activateCurve(event->pos())){ curves[i]->setHover(true); curve_hovered = true; continue; } curves[i]->setHover(false); } } else if (mouseMode == CartesianPlot::Cursor){ info = "x="; if (yRangeFormat == CartesianPlot::Numeric) info += QString::number(logicalPoint.x()); else info += QDateTime::fromMSecsSinceEpoch(logicalPoint.x()).toString(xRangeDateTimeFormat); double cursorPenWidth2 = cursorPen.width()/2.; if (cursorPenWidth2 < 10.) cursorPenWidth2 = 10.; if ((cursor0Enable && qAbs(point.x()-cSystem->mapLogicalToScene(QPointF(cursor0Pos.x(),yMin)).x()) < cursorPenWidth2) || (cursor1Enable && qAbs(point.x()-cSystem->mapLogicalToScene(QPointF(cursor1Pos.x(),yMin)).x()) < cursorPenWidth2)) setCursor(Qt::SizeHorCursor); else setCursor(Qt::ArrowCursor); update(); } } else emit q->mouseHoverOutsideDataRectSignal(); q->info(info); QGraphicsItem::hoverMoveEvent(event); } void CartesianPlotPrivate::mouseHoverOutsideDataRect() { m_insideDataRect = false; update(); } void CartesianPlotPrivate::hoverLeaveEvent(QGraphicsSceneHoverEvent* event) { QVector curves = q->children(); for (auto* curve : curves) curve->setHover(false); m_hovered = false; QGraphicsItem::hoverLeaveEvent(event); } void CartesianPlotPrivate::mouseHoverZoomSelectionMode(QPointF logicPos) { m_insideDataRect = true; if (mouseMode == CartesianPlot::ZoomSelectionMode && !m_selectionBandIsShown) { } else if (mouseMode == CartesianPlot::ZoomXSelectionMode && !m_selectionBandIsShown) { QPointF p1(logicPos.x(), yMin); QPointF p2(logicPos.x(), yMax); m_selectionStartLine.setP1(cSystem->mapLogicalToScene(p1, CartesianCoordinateSystem::MappingFlag::Limit)); m_selectionStartLine.setP2(cSystem->mapLogicalToScene(p2, CartesianCoordinateSystem::MappingFlag::Limit)); } else if (mouseMode == CartesianPlot::ZoomYSelectionMode && !m_selectionBandIsShown) { QPointF p1(xMin, logicPos.y()); QPointF p2(xMax, logicPos.y()); m_selectionStartLine.setP1(cSystem->mapLogicalToScene(p1, CartesianCoordinateSystem::MappingFlag::Limit)); m_selectionStartLine.setP2(cSystem->mapLogicalToScene(p2, CartesianCoordinateSystem::MappingFlag::Limit)); } update(); // because if previous another selection mode was selected, the lines must be deleted } void CartesianPlotPrivate::paint(QPainter* painter, const QStyleOptionGraphicsItem* option, QWidget* widget) { Q_UNUSED(option) Q_UNUSED(widget) if (!isVisible()) return; if (!m_printing) { painter->save(); painter->setPen(cursorPen); QFont font = painter->font(); font.setPointSize(font.pointSize() * 4); painter->setFont(font); QPointF p1 = cSystem->mapLogicalToScene(QPointF(cursor0Pos.x(),yMin)); if (cursor0Enable && p1 != QPointF(0,0)){ QPointF p2 = cSystem->mapLogicalToScene(QPointF(cursor0Pos.x(),yMax)); painter->drawLine(p1,p2); QPointF textPos = p2; textPos.setX(p2.x() - m_cursor0Text.size().width()/2); textPos.setY(p2.y() - m_cursor0Text.size().height()); if (textPos.y() < boundingRect().y()) textPos.setY(boundingRect().y()); painter->drawStaticText(textPos, m_cursor0Text); } p1 = cSystem->mapLogicalToScene(QPointF(cursor1Pos.x(),yMin)); if (cursor1Enable && p1 != QPointF(0,0)){ QPointF p2 = cSystem->mapLogicalToScene(QPointF(cursor1Pos.x(),yMax)); painter->drawLine(p1,p2); QPointF textPos = p2; // TODO: Moving this stuff into other function to not calculate it every time textPos.setX(p2.x() - m_cursor1Text.size().width()/2); textPos.setY(p2.y() - m_cursor1Text.size().height()); if (textPos.y() < boundingRect().y()) textPos.setY(boundingRect().y()); painter->drawStaticText(textPos, m_cursor1Text); } painter->restore(); } painter->setPen(QPen(Qt::black, 3)); if ((mouseMode == CartesianPlot::ZoomXSelectionMode || mouseMode == CartesianPlot::ZoomYSelectionMode) && (!m_selectionBandIsShown) && m_insideDataRect) painter->drawLine(m_selectionStartLine); if (m_selectionBandIsShown) { QPointF selectionStart = m_selectionStart; if (m_selectionStart.x() > dataRect.right()) selectionStart.setX(dataRect.right()); if (m_selectionStart.x() < dataRect.left()) selectionStart.setX(dataRect.left()); if (m_selectionStart.y() > dataRect.bottom()) selectionStart.setY(dataRect.bottom()); if (m_selectionStart.y() < dataRect.top()) selectionStart.setY(dataRect.top()); QPointF selectionEnd = m_selectionEnd; if (m_selectionEnd.x() > dataRect.right()) selectionEnd.setX(dataRect.right()); if (m_selectionEnd.x() < dataRect.left()) selectionEnd.setX(dataRect.left()); if (m_selectionEnd.y() > dataRect.bottom()) selectionEnd.setY(dataRect.bottom()); if (m_selectionEnd.y() < dataRect.top()) selectionEnd.setY(dataRect.top()); painter->save(); painter->setPen(QPen(Qt::black, 5)); painter->drawRect(QRectF(selectionStart, selectionEnd)); painter->setBrush(Qt::blue); painter->setOpacity(0.2); painter->drawRect(QRectF(selectionStart, selectionEnd)); painter->restore(); } } //############################################################################## //################## Serialization/Deserialization ########################### //############################################################################## //! Save as XML void CartesianPlot::save(QXmlStreamWriter* writer) const { Q_D(const CartesianPlot); writer->writeStartElement( "cartesianPlot" ); writeBasicAttributes(writer); writeCommentElement(writer); //applied theme if (!d->theme.isEmpty()) { writer->writeStartElement( "theme" ); writer->writeAttribute("name", d->theme); writer->writeEndElement(); } //cursor writer->writeStartElement( "cursor" ); WRITE_QPEN(d->cursorPen); writer->writeEndElement(); //geometry writer->writeStartElement( "geometry" ); writer->writeAttribute( "x", QString::number(d->rect.x()) ); writer->writeAttribute( "y", QString::number(d->rect.y()) ); writer->writeAttribute( "width", QString::number(d->rect.width()) ); writer->writeAttribute( "height", QString::number(d->rect.height()) ); writer->writeAttribute( "visible", QString::number(d->isVisible()) ); writer->writeEndElement(); //coordinate system and padding writer->writeStartElement( "coordinateSystem" ); writer->writeAttribute( "autoScaleX", QString::number(d->autoScaleX) ); writer->writeAttribute( "autoScaleY", QString::number(d->autoScaleY) ); writer->writeAttribute( "xMin", QString::number(d->xMin, 'g', 16)); writer->writeAttribute( "xMax", QString::number(d->xMax, 'g', 16) ); writer->writeAttribute( "yMin", QString::number(d->yMin, 'g', 16) ); writer->writeAttribute( "yMax", QString::number(d->yMax, 'g', 16) ); writer->writeAttribute( "xScale", QString::number(d->xScale) ); writer->writeAttribute( "yScale", QString::number(d->yScale) ); writer->writeAttribute( "xRangeFormat", QString::number(d->xRangeFormat) ); writer->writeAttribute( "yRangeFormat", QString::number(d->yRangeFormat) ); writer->writeAttribute( "horizontalPadding", QString::number(d->horizontalPadding) ); writer->writeAttribute( "verticalPadding", QString::number(d->verticalPadding) ); writer->writeAttribute( "rightPadding", QString::number(d->rightPadding) ); writer->writeAttribute( "bottomPadding", QString::number(d->bottomPadding) ); writer->writeAttribute( "symmetricPadding", QString::number(d->symmetricPadding)); writer->writeEndElement(); //x-scale breaks if (d->xRangeBreakingEnabled || !d->xRangeBreaks.list.isEmpty()) { writer->writeStartElement("xRangeBreaks"); writer->writeAttribute( "enabled", QString::number(d->xRangeBreakingEnabled) ); for (const auto& rb : d->xRangeBreaks.list) { writer->writeStartElement("xRangeBreak"); writer->writeAttribute("start", QString::number(rb.start)); writer->writeAttribute("end", QString::number(rb.end)); writer->writeAttribute("position", QString::number(rb.position)); writer->writeAttribute("style", QString::number(rb.style)); writer->writeEndElement(); } writer->writeEndElement(); } //y-scale breaks if (d->yRangeBreakingEnabled || !d->yRangeBreaks.list.isEmpty()) { writer->writeStartElement("yRangeBreaks"); writer->writeAttribute( "enabled", QString::number(d->yRangeBreakingEnabled) ); for (const auto& rb : d->yRangeBreaks.list) { writer->writeStartElement("yRangeBreak"); writer->writeAttribute("start", QString::number(rb.start)); writer->writeAttribute("end", QString::number(rb.end)); writer->writeAttribute("position", QString::number(rb.position)); writer->writeAttribute("style", QString::number(rb.style)); writer->writeEndElement(); } writer->writeEndElement(); } //serialize all children (plot area, title text label, axes and curves) for (auto* elem : children(IncludeHidden)) elem->save(writer); writer->writeEndElement(); // close "cartesianPlot" section } //! Load from XML bool CartesianPlot::load(XmlStreamReader* reader, bool preview) { Q_D(CartesianPlot); if (!readBasicAttributes(reader)) return false; KLocalizedString attributeWarning = ki18n("Attribute '%1' missing or empty, default value is used"); QXmlStreamAttributes attribs; QString str; bool titleLabelRead = false; while (!reader->atEnd()) { reader->readNext(); if (reader->isEndElement() && reader->name() == "cartesianPlot") break; if (!reader->isStartElement()) continue; if (reader->name() == "comment") { if (!readCommentElement(reader)) return false; } else if (!preview && reader->name() == "theme") { attribs = reader->attributes(); d->theme = attribs.value("name").toString(); } else if (!preview && reader->name() == "cursor") { attribs = reader->attributes(); QPen pen; pen.setWidth(attribs.value("width").toInt()); pen.setStyle(static_cast(attribs.value("style").toInt())); QColor color; color.setRed(attribs.value("color_r").toInt()); color.setGreen(attribs.value("color_g").toInt()); color.setBlue(attribs.value("color_b").toInt()); pen.setColor(color); d->cursorPen = pen; } else if (!preview && reader->name() == "geometry") { attribs = reader->attributes(); str = attribs.value("x").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("x").toString()); else d->rect.setX( str.toDouble() ); str = attribs.value("y").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("y").toString()); else d->rect.setY( str.toDouble() ); str = attribs.value("width").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("width").toString()); else d->rect.setWidth( str.toDouble() ); str = attribs.value("height").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("height").toString()); else d->rect.setHeight( str.toDouble() ); str = attribs.value("visible").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("visible").toString()); else d->setVisible(str.toInt()); } else if (!preview && reader->name() == "coordinateSystem") { attribs = reader->attributes(); READ_INT_VALUE("autoScaleX", autoScaleX, bool); READ_INT_VALUE("autoScaleY", autoScaleY, bool); str = attribs.value("xMin").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("xMin").toString()); else { d->xMin = str.toDouble(); d->xMinPrev = d->xMin; } str = attribs.value("xMax").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("xMax").toString()); else { d->xMax = str.toDouble(); d->xMaxPrev = d->xMax; } str = attribs.value("yMin").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("yMin").toString()); else { d->yMin = str.toDouble(); d->yMinPrev = d->yMin; } str = attribs.value("yMax").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("yMax").toString()); else { d->yMax = str.toDouble(); d->yMaxPrev = d->yMax; } READ_INT_VALUE("xScale", xScale, CartesianPlot::Scale); READ_INT_VALUE("yScale", yScale, CartesianPlot::Scale); READ_INT_VALUE("xRangeFormat", xRangeFormat, CartesianPlot::RangeFormat); READ_INT_VALUE("yRangeFormat", yRangeFormat, CartesianPlot::RangeFormat); READ_DOUBLE_VALUE("horizontalPadding", horizontalPadding); READ_DOUBLE_VALUE("verticalPadding", verticalPadding); READ_DOUBLE_VALUE("rightPadding", rightPadding); READ_DOUBLE_VALUE("bottomPadding", bottomPadding); READ_INT_VALUE("symmetricPadding", symmetricPadding, bool); } else if (!preview && reader->name() == "xRangeBreaks") { //delete default rang break d->xRangeBreaks.list.clear(); attribs = reader->attributes(); READ_INT_VALUE("enabled", xRangeBreakingEnabled, bool); } else if (!preview && reader->name() == "xRangeBreak") { attribs = reader->attributes(); RangeBreak b; str = attribs.value("start").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("start").toString()); else b.start = str.toDouble(); str = attribs.value("end").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("end").toString()); else b.end = str.toDouble(); str = attribs.value("position").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("position").toString()); else b.position = str.toDouble(); str = attribs.value("style").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("style").toString()); else b.style = CartesianPlot::RangeBreakStyle(str.toInt()); d->xRangeBreaks.list << b; } else if (!preview && reader->name() == "yRangeBreaks") { //delete default rang break d->yRangeBreaks.list.clear(); attribs = reader->attributes(); READ_INT_VALUE("enabled", yRangeBreakingEnabled, bool); } else if (!preview && reader->name() == "yRangeBreak") { attribs = reader->attributes(); RangeBreak b; str = attribs.value("start").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("start").toString()); else b.start = str.toDouble(); str = attribs.value("end").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("end").toString()); else b.end = str.toDouble(); str = attribs.value("position").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("position").toString()); else b.position = str.toDouble(); str = attribs.value("style").toString(); if (str.isEmpty()) reader->raiseWarning(attributeWarning.subs("style").toString()); else b.style = CartesianPlot::RangeBreakStyle(str.toInt()); d->yRangeBreaks.list << b; } else if (reader->name() == "textLabel") { if (!titleLabelRead) { //the first text label is always the title label m_title->load(reader, preview); titleLabelRead = true; //TODO: the name is read in m_title->load() but we overwrite it here //since the old projects don't have this " - Title" appendix yet that we add in init(). //can be removed in couple of releases m_title->setName(name() + QLatin1String(" - ") + i18n("Title")); } else { TextLabel* label = new TextLabel("text label"); if (label->load(reader, preview)) { addChildFast(label); label->setParentGraphicsItem(graphicsItem()); } else { delete label; return false; } } } else if (reader->name() == "image") { Image* image = new Image(QString()); if (!image->load(reader, preview)) { delete image; return false; } else addChildFast(image); } else if (reader->name() == "plotArea") m_plotArea->load(reader, preview); else if (reader->name() == "axis") { Axis* axis = new Axis(QString()); if (axis->load(reader, preview)) addChildFast(axis); else { delete axis; return false; } } else if (reader->name() == "xyCurve") { XYCurve* curve = new XYCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyEquationCurve") { XYEquationCurve* curve = new XYEquationCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyDataReductionCurve") { XYDataReductionCurve* curve = new XYDataReductionCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyDifferentiationCurve") { XYDifferentiationCurve* curve = new XYDifferentiationCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyIntegrationCurve") { XYIntegrationCurve* curve = new XYIntegrationCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyInterpolationCurve") { XYInterpolationCurve* curve = new XYInterpolationCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xySmoothCurve") { XYSmoothCurve* curve = new XYSmoothCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyFitCurve") { XYFitCurve* curve = new XYFitCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyFourierFilterCurve") { XYFourierFilterCurve* curve = new XYFourierFilterCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyFourierTransformCurve") { XYFourierTransformCurve* curve = new XYFourierTransformCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyConvolutionCurve") { XYConvolutionCurve* curve = new XYConvolutionCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "xyCorrelationCurve") { XYCorrelationCurve* curve = new XYCorrelationCurve(QString()); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else if (reader->name() == "cartesianPlotLegend") { m_legend = new CartesianPlotLegend(this, QString()); if (m_legend->load(reader, preview)) addChildFast(m_legend); else { delete m_legend; return false; } } else if (reader->name() == "customPoint") { CustomPoint* point = new CustomPoint(this, QString()); if (point->load(reader, preview)) addChildFast(point); else { delete point; return false; } + } else if (reader->name() == "referenceLine") { + ReferenceLine* line = new ReferenceLine(this, QString()); + if (line->load(reader, preview)) + addChildFast(line); + else { + delete line; + return false; + } } else if (reader->name() == "Histogram") { Histogram* curve = new Histogram("Histogram"); if (curve->load(reader, preview)) addChildFast(curve); else { removeChild(curve); return false; } } else { // unknown element reader->raiseWarning(i18n("unknown cartesianPlot element '%1'", reader->name().toString())); if (!reader->skipToEndElement()) return false; } } if (preview) return true; d->retransform(); //if a theme was used, initialize the color palette if (!d->theme.isEmpty()) { //TODO: check whether the theme config really exists KConfig config( ThemeHandler::themeFilePath(d->theme), KConfig::SimpleConfig ); this->setColorPalette(config); } else { //initialize the color palette with default colors this->setColorPalette(KConfig()); } return true; } //############################################################################## //######################### Theme management ################################## //############################################################################## void CartesianPlot::loadTheme(const QString& theme) { KConfig config(ThemeHandler::themeFilePath(theme), KConfig::SimpleConfig); loadThemeConfig(config); } void CartesianPlot::loadThemeConfig(const KConfig& config) { QString str = config.name(); // theme path is saved with UNIX dir separator str = str.right(str.length() - str.lastIndexOf(QLatin1Char('/')) - 1); DEBUG(" set theme to " << str.toStdString()); this->setTheme(str); //load the color palettes for the curves this->setColorPalette(config); //load the theme for all the children for (auto* child : children(AbstractAspect::IncludeHidden)) child->loadThemeConfig(config); Q_D(CartesianPlot); d->update(this->rect()); } void CartesianPlot::saveTheme(KConfig &config) { const QVector& axisElements = children(AbstractAspect::IncludeHidden); const QVector& plotAreaElements = children(AbstractAspect::IncludeHidden); const QVector& textLabelElements = children(AbstractAspect::IncludeHidden); axisElements.at(0)->saveThemeConfig(config); plotAreaElements.at(0)->saveThemeConfig(config); textLabelElements.at(0)->saveThemeConfig(config); for (auto *child : children(AbstractAspect::IncludeHidden)) child->saveThemeConfig(config); } //Generating colors from 5-color theme palette void CartesianPlot::setColorPalette(const KConfig& config) { if (config.hasGroup(QLatin1String("Theme"))) { KConfigGroup group = config.group(QLatin1String("Theme")); //read the five colors defining the palette m_themeColorPalette.clear(); m_themeColorPalette.append(group.readEntry("ThemePaletteColor1", QColor())); m_themeColorPalette.append(group.readEntry("ThemePaletteColor2", QColor())); m_themeColorPalette.append(group.readEntry("ThemePaletteColor3", QColor())); m_themeColorPalette.append(group.readEntry("ThemePaletteColor4", QColor())); m_themeColorPalette.append(group.readEntry("ThemePaletteColor5", QColor())); } else { //no theme is available, provide 5 "default colors" m_themeColorPalette.clear(); m_themeColorPalette.append(QColor(25, 25, 25)); m_themeColorPalette.append(QColor(0, 0, 127)); m_themeColorPalette.append(QColor(127 ,0, 0)); m_themeColorPalette.append(QColor(0, 127, 0)); m_themeColorPalette.append(QColor(85, 0, 127)); } //generate 30 additional shades if the color palette contains more than one color if (m_themeColorPalette.at(0) != m_themeColorPalette.at(1)) { QColor c; //3 factors to create shades from theme's palette std::array fac = {0.25f, 0.45f, 0.65f}; //Generate 15 lighter shades for (int i = 0; i < 5; i++) { for (int j = 1; j < 4; j++) { c.setRed( m_themeColorPalette.at(i).red()*(1-fac[j-1]) ); c.setGreen( m_themeColorPalette.at(i).green()*(1-fac[j-1]) ); c.setBlue( m_themeColorPalette.at(i).blue()*(1-fac[j-1]) ); m_themeColorPalette.append(c); } } //Generate 15 darker shades for (int i = 0; i < 5; i++) { for (int j = 4; j < 7; j++) { c.setRed( m_themeColorPalette.at(i).red()+((255-m_themeColorPalette.at(i).red())*fac[j-4]) ); c.setGreen( m_themeColorPalette.at(i).green()+((255-m_themeColorPalette.at(i).green())*fac[j-4]) ); c.setBlue( m_themeColorPalette.at(i).blue()+((255-m_themeColorPalette.at(i).blue())*fac[j-4]) ); m_themeColorPalette.append(c); } } } } const QList& CartesianPlot::themeColorPalette() const { return m_themeColorPalette; } diff --git a/src/backend/worksheet/plots/cartesian/CartesianPlot.h b/src/backend/worksheet/plots/cartesian/CartesianPlot.h index d7937fc5b..8b1682975 100644 --- a/src/backend/worksheet/plots/cartesian/CartesianPlot.h +++ b/src/backend/worksheet/plots/cartesian/CartesianPlot.h @@ -1,334 +1,340 @@ /*************************************************************************** File : CartesianPlot.h Project : LabPlot Description : Cartesian plot -------------------------------------------------------------------- - Copyright : (C) 2011-2018 by Alexander Semke (alexander.semke@web.de) - Copyright : (C) 2018 by Stefan Gerlach (stefan.gerlach@uni.kn) + Copyright : (C) 2011-2020 Alexander Semke (alexander.semke@web.de) + Copyright : (C) 2012-2019 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 * * * ***************************************************************************/ #ifndef CARTESIANPLOT_H #define CARTESIANPLOT_H #include "backend/worksheet/plots/AbstractPlot.h" #include "backend/worksheet/plots/cartesian/Histogram.h" #include class QDropEvent; class QToolBar; class CartesianPlotPrivate; class CartesianPlotLegend; class AbstractColumn; class XYCurve; class XYEquationCurve; class XYDataReductionCurve; class XYDifferentiationCurve; class XYIntegrationCurve; class XYInterpolationCurve; class XYSmoothCurve; class XYFitCurve; class XYFourierFilterCurve; class XYFourierTransformCurve; class XYConvolutionCurve; class XYCorrelationCurve; class KConfig; class CartesianPlot : public AbstractPlot { Q_OBJECT public: explicit CartesianPlot(const QString &name); ~CartesianPlot() override; enum Scale {ScaleLinear, ScaleLog10, ScaleLog2, ScaleLn, ScaleLog10Abs, ScaleLog2Abs, ScaleLnAbs, ScaleSqrt, ScaleX2}; enum Type {FourAxes, TwoAxes, TwoAxesCentered, TwoAxesCenteredZero}; enum RangeFormat {Numeric, DateTime}; enum RangeType {RangeFree, RangeLast, RangeFirst}; enum RangeBreakStyle {RangeBreakSimple, RangeBreakVertical, RangeBreakSloped}; enum MouseMode {SelectionMode, ZoomSelectionMode, ZoomXSelectionMode, ZoomYSelectionMode, Cursor}; enum NavigationOperation {ScaleAuto, ScaleAutoX, ScaleAutoY, ZoomIn, ZoomOut, ZoomInX, ZoomOutX, ZoomInY, ZoomOutY, ShiftLeftX, ShiftRightX, ShiftUpY, ShiftDownY }; struct RangeBreak { RangeBreak() : start(NAN), end(NAN), position(0.5), style(RangeBreakSloped) {} bool isValid() const { return (!std::isnan(start) && !std::isnan(end)); } double start; double end; double position; RangeBreakStyle style; }; //simple wrapper for QList in order to get our macros working struct RangeBreaks { RangeBreaks() : lastChanged(-1) { RangeBreak b; list << b; }; QList list; int lastChanged; }; void initDefault(Type = FourAxes); QIcon icon() const override; QMenu* createContextMenu() override; QMenu* analysisMenu(); QVector dependsOn() const override; void setRect(const QRectF&) override; QRectF dataRect() const; void setMouseMode(const MouseMode); void setLocked(const bool); MouseMode mouseMode() const; void navigate(NavigationOperation); void setSuppressDataChangedSignal(bool); const QList& themeColorPalette() const; void processDropEvent(QDropEvent*) override; bool isPanningActive() const; bool isHovered() const; bool isPrinted() const; bool isSelected() const; void addLegend(CartesianPlotLegend*); int curveCount(); const XYCurve* getCurve(int index); double cursorPos(int cursorNumber); void save(QXmlStreamWriter*) const override; bool load(XmlStreamReader*, bool preview) override; void loadThemeConfig(const KConfig&) override; void saveTheme(KConfig& config); void mousePressZoomSelectionMode(QPointF logicPos); void mousePressCursorMode(int cursorNumber, QPointF logicPos); void mouseMoveZoomSelectionMode(QPointF logicPos); void mouseMoveCursorMode(int cursorNumber, QPointF logicPos); void mouseReleaseZoomSelectionMode(); void mouseHoverZoomSelectionMode(QPointF logicPos); void mouseHoverOutsideDataRect(); BASIC_D_ACCESSOR_DECL(CartesianPlot::RangeFormat, xRangeFormat, XRangeFormat) BASIC_D_ACCESSOR_DECL(CartesianPlot::RangeFormat, yRangeFormat, YRangeFormat) const QString& xRangeDateTimeFormat() const; const QString& yRangeDateTimeFormat() const; BASIC_D_ACCESSOR_DECL(CartesianPlot::RangeType, rangeType, RangeType) BASIC_D_ACCESSOR_DECL(int, rangeLastValues, RangeLastValues) BASIC_D_ACCESSOR_DECL(int, rangeFirstValues, RangeFirstValues) BASIC_D_ACCESSOR_DECL(bool, autoScaleX, AutoScaleX) BASIC_D_ACCESSOR_DECL(bool, autoScaleY, AutoScaleY) BASIC_D_ACCESSOR_DECL(double, xMin, XMin) BASIC_D_ACCESSOR_DECL(double, xMax, XMax) BASIC_D_ACCESSOR_DECL(double, yMin, YMin) BASIC_D_ACCESSOR_DECL(double, yMax, YMax) BASIC_D_ACCESSOR_DECL(CartesianPlot::Scale, xScale, XScale) BASIC_D_ACCESSOR_DECL(CartesianPlot::Scale, yScale, YScale) BASIC_D_ACCESSOR_DECL(bool, xRangeBreakingEnabled, XRangeBreakingEnabled) BASIC_D_ACCESSOR_DECL(bool, yRangeBreakingEnabled, YRangeBreakingEnabled) CLASS_D_ACCESSOR_DECL(RangeBreaks, xRangeBreaks, XRangeBreaks) CLASS_D_ACCESSOR_DECL(RangeBreaks, yRangeBreaks, YRangeBreaks) CLASS_D_ACCESSOR_DECL(QPen, cursorPen, CursorPen); CLASS_D_ACCESSOR_DECL(bool, cursor0Enable, Cursor0Enable); CLASS_D_ACCESSOR_DECL(bool, cursor1Enable, Cursor1Enable); QString theme() const; typedef CartesianPlotPrivate Private; public slots: void setTheme(const QString&); private: void init(); void initActions(); void initMenus(); void setColorPalette(const KConfig&); const XYCurve* currentCurve() const; void calculateCurvesXMinMax(bool completeRange = true); void calculateCurvesYMinMax(bool completeRange = true); CartesianPlotLegend* m_legend{nullptr}; double m_zoomFactor{1.2}; QList m_themeColorPalette; bool m_menusInitialized{false}; QAction* visibilityAction; //"add new" actions QAction* addCurveAction; QAction* addEquationCurveAction; QAction* addHistogramAction; QAction* addDataReductionCurveAction; QAction* addDifferentiationCurveAction; QAction* addIntegrationCurveAction; QAction* addInterpolationCurveAction; QAction* addSmoothCurveAction; QAction* addFitCurveAction; QAction* addFourierFilterCurveAction; QAction* addFourierTransformCurveAction; QAction* addConvolutionCurveAction; QAction* addCorrelationCurveAction; QAction* addHorizontalAxisAction; QAction* addVerticalAxisAction; QAction* addLegendAction; QAction* addTextLabelAction; QAction* addImageAction; QAction* addCustomPointAction; + QAction* addReferenceLineAction; //scaling, zooming, navigation actions QAction* scaleAutoXAction; QAction* scaleAutoYAction; QAction* scaleAutoAction; QAction* zoomInAction; QAction* zoomOutAction; QAction* zoomInXAction; QAction* zoomOutXAction; QAction* zoomInYAction; QAction* zoomOutYAction; QAction* shiftLeftXAction; QAction* shiftRightXAction; QAction* shiftUpYAction; QAction* shiftDownYAction; //analysis menu actions QAction* addDataOperationAction; QAction* addDataReductionAction; QAction* addDifferentiationAction; QAction* addIntegrationAction; QAction* addInterpolationAction; QAction* addSmoothAction; QVector addFitAction; QAction* addFourierFilterAction; QAction* addFourierTransformAction; QAction* addConvolutionAction; QAction* addCorrelationAction; QMenu* addNewMenu{nullptr}; QMenu* addNewAnalysisMenu{nullptr}; QMenu* zoomMenu{nullptr}; QMenu* dataAnalysisMenu{nullptr}; QMenu* themeMenu{nullptr}; Q_DECLARE_PRIVATE(CartesianPlot) public slots: void addHorizontalAxis(); void addVerticalAxis(); void addCurve(); void addHistogram(); void addEquationCurve(); void addDataReductionCurve(); void addDifferentiationCurve(); void addIntegrationCurve(); void addInterpolationCurve(); void addSmoothCurve(); void addFitCurve(); void addFourierFilterCurve(); void addFourierTransformCurve(); void addConvolutionCurve(); void addCorrelationCurve(); void addLegend(); void addTextLabel(); void addImage(); void addCustomPoint(); + void addReferenceLine(); + void scaleAutoTriggered(); bool scaleAuto(); bool scaleAutoX(); bool scaleAutoY(); + void zoomIn(); void zoomOut(); void zoomInX(); void zoomOutX(); void zoomInY(); void zoomOutY(); + void shiftLeftX(); void shiftRightX(); void shiftUpY(); void shiftDownY(); + void cursor(); - void dataChanged(); + void dataChanged(); void curveLinePenChanged(QPen); private slots: void updateLegend(); void childAdded(const AbstractAspect*); void childRemoved(const AbstractAspect* parent, const AbstractAspect* before, const AbstractAspect* child); void childHovered(); void xDataChanged(); void yDataChanged(); void curveVisibilityChanged(); //SLOTs for changes triggered via QActions in the context menu void visibilityChanged(); void loadTheme(const QString&); protected: CartesianPlot(const QString &name, CartesianPlotPrivate *dd); signals: void rangeTypeChanged(CartesianPlot::RangeType); void xRangeFormatChanged(CartesianPlot::RangeFormat); void yRangeFormatChanged(CartesianPlot::RangeFormat); void rangeLastValuesChanged(int); void rangeFirstValuesChanged(int); void rectChanged(QRectF&); void xAutoScaleChanged(bool); void xMinChanged(double); void xMaxChanged(double); void xScaleChanged(int); void yAutoScaleChanged(bool); void yMinChanged(double); void yMaxChanged(double); void yScaleChanged(int); void xRangeBreakingEnabledChanged(bool); void xRangeBreaksChanged(const CartesianPlot::RangeBreaks&); void yRangeBreakingEnabledChanged(bool); void yRangeBreaksChanged(const CartesianPlot::RangeBreaks&); void themeChanged(const QString&); void mousePressZoomSelectionModeSignal(QPointF logicPos); void mousePressCursorModeSignal(int cursorNumber, QPointF logicPos); void mouseMoveZoomSelectionModeSignal(QPointF logicPos); void mouseMoveCursorModeSignal(int cursorNumber, QPointF logicPos); void mouseReleaseCursorModeSignal(); void mouseReleaseZoomSelectionModeSignal(); void mouseHoverZoomSelectionModeSignal(QPointF logicalPoint); void mouseHoverOutsideDataRectSignal(); void curveNameChanged(const AbstractAspect* curve); void cursorPosChanged(int cursorNumber, double xPos); void curveAdded(const XYCurve*); void curveRemoved(const XYCurve*); void curveLinePenChanged(QPen, QString curveName); void cursorPenChanged(QPen); void curveDataChanged(const XYCurve*); void curveVisibilityChangedSignal(); void mouseModeChanged(MouseMode); void cursor0EnableChanged(bool enable); void cursor1EnableChanged(bool enable); }; #endif diff --git a/src/backend/worksheet/plots/cartesian/ReferenceLine.cpp b/src/backend/worksheet/plots/cartesian/ReferenceLine.cpp new file mode 100644 index 000000000..5000dc6d2 --- /dev/null +++ b/src/backend/worksheet/plots/cartesian/ReferenceLine.cpp @@ -0,0 +1,433 @@ +/*************************************************************************** + File : ReferenceLine.cpp + Project : LabPlot + Description : Custom user-defined point on the plot + -------------------------------------------------------------------- + Copyright : (C) 2020 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 "ReferenceLine.h" +#include "ReferenceLinePrivate.h" +#include "backend/worksheet/Worksheet.h" +#include "backend/worksheet/plots/cartesian/CartesianPlot.h" +#include "backend/worksheet/plots/cartesian/CartesianCoordinateSystem.h" +#include "backend/lib/commandtemplates.h" +#include "backend/lib/XmlStreamReader.h" + +#include +#include +#include + +#include +#include +#include + +/** + * \class ReferenceLine + * \brief A customizable point. + * + * The position can be either specified by mouse events or by providing the + * x- and y- coordinates in parent's coordinate system + */ + +ReferenceLine::ReferenceLine(const CartesianPlot* plot, const QString& name) + : WorksheetElement(name, AspectType::ReferenceLine), d_ptr(new ReferenceLinePrivate(this, plot)) { + + init(); +} + +ReferenceLine::ReferenceLine(const QString& name, ReferenceLinePrivate* dd) + : WorksheetElement(name, AspectType::ReferenceLine), d_ptr(dd) { + + init(); +} + +//no need to delete the d-pointer here - it inherits from QGraphicsItem +//and is deleted during the cleanup in QGraphicsScene +ReferenceLine::~ReferenceLine() = default; + +void ReferenceLine::init() { + Q_D(ReferenceLine); + + KConfig config; + KConfigGroup group; + group = config.group("ReferenceLine"); + + d->orientation = (Orientation)group.readEntry("Orientation", (int)Vertical); + d->position = group.readEntry("Position", d->plot->xMin() + (d->plot->xMax() - d->plot->xMin())/2); + + d->pen.setStyle( (Qt::PenStyle) group.readEntry("Style", (int)Qt::SolidLine) ); + d->pen.setColor( group.readEntry("Color", QColor(Qt::black)) ); + d->pen.setWidthF( group.readEntry("Width", Worksheet::convertToSceneUnits(1.0, Worksheet::Point)) ); + d->opacity = group.readEntry("Opacity", 1.0); + + this->initActions(); + + retransform(); +} + +void ReferenceLine::initActions() { + visibilityAction = new QAction(i18n("Visible"), this); + visibilityAction->setCheckable(true); + connect(visibilityAction, &QAction::triggered, this, &ReferenceLine::visibilityChanged); +} + +/*! + Returns an icon to be used in the project explorer. +*/ +QIcon ReferenceLine::icon() const { + return QIcon::fromTheme("draw-line"); +} + +QMenu* ReferenceLine::createContextMenu() { + QMenu* menu = WorksheetElement::createContextMenu(); + QAction* firstAction = menu->actions().at(1); //skip the first action because of the "title-action" + visibilityAction->setChecked(isVisible()); + menu->insertAction(firstAction, visibilityAction); + + return menu; +} + +QGraphicsItem* ReferenceLine::graphicsItem() const { + return d_ptr; +} + +void ReferenceLine::retransform() { + Q_D(ReferenceLine); + d->retransform(); +} + +void ReferenceLine::handleResize(double horizontalRatio, double verticalRatio, bool pageResize) { + Q_UNUSED(horizontalRatio); + Q_UNUSED(verticalRatio); + Q_UNUSED(pageResize); +} + +/* ============================ getter methods ================= */ +CLASS_SHARED_D_READER_IMPL(ReferenceLine, ReferenceLine::Orientation, orientation, orientation) +BASIC_SHARED_D_READER_IMPL(ReferenceLine, double, position, position) +CLASS_SHARED_D_READER_IMPL(ReferenceLine, QPen, pen, pen) +BASIC_SHARED_D_READER_IMPL(ReferenceLine, qreal, opacity, opacity) + +/* ============================ setter methods and undo commands ================= */ +STD_SETTER_CMD_IMPL_F_S(ReferenceLine, SetOrientation, ReferenceLine::Orientation, orientation, retransform) +void ReferenceLine::setOrientation(Orientation orientation) { + Q_D(ReferenceLine); + if (orientation != d->orientation) + exec(new ReferenceLineSetOrientationCmd(d, orientation, ki18n("%1: set orientation"))); +} + +STD_SETTER_CMD_IMPL_F_S(ReferenceLine, SetPosition, double, position, retransform) +void ReferenceLine::setPosition(double position) { + Q_D(ReferenceLine); + if (position != d->position) + exec(new ReferenceLineSetPositionCmd(d, position, ki18n("%1: set position"))); +} + +STD_SETTER_CMD_IMPL_F_S(ReferenceLine, SetPen, QPen, pen, recalcShapeAndBoundingRect) +void ReferenceLine::setPen(const QPen& pen) { + Q_D(ReferenceLine); + if (pen != d->pen) + exec(new ReferenceLineSetPenCmd(d, pen, ki18n("%1: set line style"))); +} + +STD_SETTER_CMD_IMPL_F_S(ReferenceLine, SetOpacity, qreal, opacity, update); +void ReferenceLine::setOpacity(qreal opacity) { + Q_D(ReferenceLine); + if (opacity != d->opacity) + exec(new ReferenceLineSetOpacityCmd(d, opacity, ki18n("%1: set line opacity"))); +} + +STD_SWAP_METHOD_SETTER_CMD_IMPL_F(ReferenceLine, SetVisible, bool, swapVisible, update); +void ReferenceLine::setVisible(bool on) { + Q_D(ReferenceLine); + exec(new ReferenceLineSetVisibleCmd(d, on, on ? ki18n("%1: set visible") : ki18n("%1: set invisible"))); +} + +bool ReferenceLine::isVisible() const { + Q_D(const ReferenceLine); + return d->isVisible(); +} + +void ReferenceLine::setPrinting(bool on) { + Q_D(ReferenceLine); + d->m_printing = on; +} + +//############################################################################## +//###### SLOTs for changes triggered via QActions in the context menu ######## +//############################################################################## +void ReferenceLine::visibilityChanged() { + Q_D(const ReferenceLine); + this->setVisible(!d->isVisible()); +} + +//############################################################################## +//####################### Private implementation ############################### +//############################################################################## +ReferenceLinePrivate::ReferenceLinePrivate(ReferenceLine* owner, const CartesianPlot* p) : plot(p), q(owner) { + setFlag(QGraphicsItem::ItemSendsGeometryChanges); + setFlag(QGraphicsItem::ItemIsMovable); + setFlag(QGraphicsItem::ItemIsSelectable); + setAcceptHoverEvents(true); +} + +QString ReferenceLinePrivate::name() const { + return q->name(); +} + +/*! + calculates the position and the bounding box of the item/point. Called on geometry or properties changes. + */ +void ReferenceLinePrivate::retransform() { + if (suppressRetransform) + return; + + //calculate the position in the scene coordinates + QVector listLogical; + if (orientation == ReferenceLine::Vertical) + listLogical << QPointF(position, (plot->yMax() - plot->yMin())/2); + else + listLogical << QPointF((plot->xMax() - plot->xMin())/2, position); + + const auto* cSystem = static_cast(plot->coordinateSystem()); + QVector listScene = cSystem->mapLogicalToScene(listLogical, CartesianCoordinateSystem::DefaultMapping); + + if (!listScene.isEmpty()) { + m_visible = true; + suppressItemChangeEvent = true; + setPos(listScene.at(0)); + suppressItemChangeEvent = false; + + //determine the length of the line to be drawn + QVector pointsLogical; + if (orientation == ReferenceLine::Vertical) + pointsLogical << QPointF(position, plot->yMin()) << QPointF(position, plot->yMax()); + else + pointsLogical << QPointF(plot->xMin(), position) << QPointF(plot->xMax(), position); + + QVector pointsScene = cSystem->mapLogicalToScene(pointsLogical, CartesianCoordinateSystem::DefaultMapping); + + if (pointsScene.size() > 1) { + if (orientation == ReferenceLine::Vertical) + length = pointsScene.at(0).y() - pointsScene.at(1).y(); + else + length = pointsScene.at(0).x() - pointsScene.at(1).x(); + } + } else + m_visible = false; + + recalcShapeAndBoundingRect(); +} + +bool ReferenceLinePrivate::swapVisible(bool on) { + bool oldValue = isVisible(); + setVisible(on); +// emit q->changed(); + emit q->visibleChanged(on); + return oldValue; +} + +/*! + Returns the outer bounds of the item as a rectangle. + */ +QRectF ReferenceLinePrivate::boundingRect() const { + return boundingRectangle; +} + +/*! + Returns the shape of this item as a QPainterPath in local coordinates. +*/ +QPainterPath ReferenceLinePrivate::shape() const { + return lineShape; +} + +/*! + recalculates the outer bounds and the shape of the item. +*/ +void ReferenceLinePrivate::recalcShapeAndBoundingRect() { + prepareGeometryChange(); + + lineShape = QPainterPath(); + if (m_visible) { + QPainterPath path; + if (orientation == ReferenceLine::Horizontal) { + path.moveTo(-length/2, 0); + path.lineTo(length/2, 0); + } else { + path.moveTo(0, length/2); + path.lineTo(0, -length/2); + } + lineShape.addPath(WorksheetElement::shapeFromPath(path, pen)); + boundingRectangle = lineShape.boundingRect(); + } +} + +void ReferenceLinePrivate::paint(QPainter* painter, const QStyleOptionGraphicsItem* option, QWidget* widget) { + Q_UNUSED(option) + Q_UNUSED(widget) + + if (!m_visible) + return; + + painter->setOpacity(opacity); + painter->setPen(pen); + if (orientation == ReferenceLine::Horizontal) + painter->drawLine(-length/2, 0, length/2, 0); + else + painter->drawLine(0, length/2, 0, -length/2); + + if (m_hovered && !isSelected() && !m_printing) { + painter->setPen(QPen(QApplication::palette().color(QPalette::Shadow), 2, Qt::SolidLine)); + painter->drawPath(lineShape); + } + + if (isSelected() && !m_printing) { + painter->setPen(QPen(QApplication::palette().color(QPalette::Highlight), 2, Qt::SolidLine)); + painter->drawPath(lineShape); + } +} + +QVariant ReferenceLinePrivate::itemChange(GraphicsItemChange change, const QVariant &value) { + if (suppressItemChangeEvent) + return value; + + if (change == QGraphicsItem::ItemPositionChange) { + //emit the signals in order to notify the UI. + //we don't set the position related member variables during the mouse movements. + //this is done on mouse release events only. + const auto* cSystem = dynamic_cast(plot->coordinateSystem()); + QPointF positionLogical = cSystem->mapSceneToLogical(value.toPointF()); + if (orientation == ReferenceLine::Horizontal) + emit q->positionChanged(positionLogical.y()); + else + emit q->positionChanged(positionLogical.x()); + } + + return QGraphicsItem::itemChange(change, value); +} + +void ReferenceLinePrivate::mouseReleaseEvent(QGraphicsSceneMouseEvent* event) { + //position was changed -> set the position member variables + suppressRetransform = true; + const auto* cSystem = static_cast(plot->coordinateSystem()); + QPointF positionLogical = cSystem->mapSceneToLogical(pos()); + if (orientation == ReferenceLine::Horizontal) + q->setPosition(positionLogical.y()); + else + q->setPosition(positionLogical.x()); + suppressRetransform = false; + + QGraphicsItem::mouseReleaseEvent(event); +} + +void ReferenceLinePrivate::contextMenuEvent(QGraphicsSceneContextMenuEvent* event) { + q->createContextMenu()->exec(event->screenPos()); +} + +void ReferenceLinePrivate::hoverEnterEvent(QGraphicsSceneHoverEvent*) { + if (!isSelected()) { + m_hovered = true; + emit q->hovered(); + update(); + } +} + +void ReferenceLinePrivate::hoverLeaveEvent(QGraphicsSceneHoverEvent*) { + if (m_hovered) { + m_hovered = false; + emit q->unhovered(); + update(); + } +} + +//############################################################################## +//################## Serialization/Deserialization ########################### +//############################################################################## +//! Save as XML +void ReferenceLine::save(QXmlStreamWriter* writer) const { + Q_D(const ReferenceLine); + + writer->writeStartElement("referenceLine"); + writeBasicAttributes(writer); + writeCommentElement(writer); + + writer->writeStartElement("general"); + writer->writeAttribute("orientation", QString::number(d->orientation)); + writer->writeAttribute("position", QString::number(d->position)); + writer->writeAttribute("visible", QString::number(d->isVisible())); + writer->writeEndElement(); + + writer->writeStartElement("line"); + WRITE_QPEN(d->pen); + writer->writeAttribute("opacity", QString::number(d->opacity)); + writer->writeEndElement(); + + writer->writeEndElement(); // close "ReferenceLine" section +} + +//! Load from XML +bool ReferenceLine::load(XmlStreamReader* reader, bool preview) { + Q_D(ReferenceLine); + + if (!readBasicAttributes(reader)) + return false; + + KLocalizedString attributeWarning = ki18n("Attribute '%1' missing or empty, default value is used"); + QXmlStreamAttributes attribs; + QString str; + + while (!reader->atEnd()) { + reader->readNext(); + if (reader->isEndElement() && reader->name() == "referenceLine") + break; + + if (!reader->isStartElement()) + continue; + + if (!preview && reader->name() == "comment") { + if (!readCommentElement(reader)) return false; + } else if (!preview && reader->name() == "general") { + attribs = reader->attributes(); + READ_DOUBLE_VALUE("position", position); + READ_INT_VALUE("orientation", orientation, ReferenceLine::Orientation); + + str = attribs.value("visible").toString(); + if (str.isEmpty()) + reader->raiseWarning(attributeWarning.subs("visible").toString()); + else + d->setVisible(str.toInt()); + } else if (!preview && reader->name() == "line") { + attribs = reader->attributes(); + READ_QPEN(d->pen); + READ_DOUBLE_VALUE("opacity", opacity); + } else { // unknown element + reader->raiseWarning(i18n("unknown element '%1'", reader->name().toString())); + if (!reader->skipToEndElement()) return false; + } + } + + if (!preview) + retransform(); + + return true; +} diff --git a/src/backend/worksheet/plots/cartesian/ReferenceLine.h b/src/backend/worksheet/plots/cartesian/ReferenceLine.h new file mode 100644 index 000000000..f2ff5d4cf --- /dev/null +++ b/src/backend/worksheet/plots/cartesian/ReferenceLine.h @@ -0,0 +1,92 @@ +/*************************************************************************** + File : ReferenceLine.h + Project : LabPlot + Description : Reference line on the plot + -------------------------------------------------------------------- + Copyright : (C) 2020 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 * + * * + ***************************************************************************/ + +#ifndef REFERENCELINE_H +#define REFERENCELINE_H + +#include + +#include "backend/lib/macros.h" +#include "backend/worksheet/WorksheetElement.h" + +class ReferenceLinePrivate; +class CartesianPlot; + +class ReferenceLine : public WorksheetElement { + Q_OBJECT + +public: + enum Orientation {Horizontal, Vertical}; + + explicit ReferenceLine(const CartesianPlot*, const QString&); + ~ReferenceLine() override; + + QIcon icon() const override; + QMenu* createContextMenu() override; + QGraphicsItem* graphicsItem() const override; + + void save(QXmlStreamWriter*) const override; + bool load(XmlStreamReader*, bool preview) override; + + BASIC_D_ACCESSOR_DECL(double, position, Position) + BASIC_D_ACCESSOR_DECL(Orientation, orientation, Orientation) + CLASS_D_ACCESSOR_DECL(QPen, pen, Pen) + BASIC_D_ACCESSOR_DECL(qreal, opacity, Opacity) + + void setVisible(bool on) override; + bool isVisible() const override; + void setPrinting(bool) override; + + void retransform() override; + void handleResize(double horizontalRatio, double verticalRatio, bool pageResize) override; + + typedef ReferenceLinePrivate Private; + +private slots: + void visibilityChanged(); + +protected: + ReferenceLinePrivate* const d_ptr; + ReferenceLine(const QString& name, ReferenceLinePrivate* dd); + +private: + Q_DECLARE_PRIVATE(ReferenceLine) + void init(); + void initActions(); + + QAction* visibilityAction; + +signals: + friend class ReferenceLineSetPositionCmd; + void orientationChanged(Orientation); + void positionChanged(double); + void penChanged(const QPen&); + void opacityChanged(qreal); + void visibleChanged(bool); + +}; + +#endif diff --git a/src/backend/worksheet/plots/cartesian/ReferenceLinePrivate.h b/src/backend/worksheet/plots/cartesian/ReferenceLinePrivate.h new file mode 100644 index 000000000..1a0da307d --- /dev/null +++ b/src/backend/worksheet/plots/cartesian/ReferenceLinePrivate.h @@ -0,0 +1,77 @@ +/*************************************************************************** + File : ReferenceLinePrivate.h + Project : LabPlot + Description : Reference line on the plot + -------------------------------------------------------------------- + Copyright : (C) 2020 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 * + * * + ***************************************************************************/ + + +#ifndef REFERENCELINERIVATE_H +#define REFERENCELINEPRIVATE_H + +#include + +class ReferenceLinePrivate: public QGraphicsItem { +public: + explicit ReferenceLinePrivate(ReferenceLine*, const CartesianPlot*); + + const CartesianPlot* plot; + + QString name() const; + void retransform(); + bool swapVisible(bool); + virtual void recalcShapeAndBoundingRect(); + void updatePosition(); + void updateData(); + + bool suppressItemChangeEvent{false}; + bool suppressRetransform{false}; + bool m_printing{false}; + bool m_hovered{false}; + bool m_visible{true}; //point inside the plot (visible) or not + + QRectF boundingRectangle; + QPainterPath lineShape; + + ReferenceLine::Orientation orientation; + double position; //position in plot coordinates + double length; + QPen pen; + qreal opacity; + + //reimplemented from QGraphicsItem + QRectF boundingRect() const override; + QPainterPath shape() const override; + void paint(QPainter*, const QStyleOptionGraphicsItem*, QWidget* widget = nullptr) override; + QVariant itemChange(GraphicsItemChange change, const QVariant& value) override; + + ReferenceLine* const q; + +private: + void contextMenuEvent(QGraphicsSceneContextMenuEvent*) override; + void mouseReleaseEvent(QGraphicsSceneMouseEvent*) override; + void hoverEnterEvent(QGraphicsSceneHoverEvent*) override; + void hoverLeaveEvent(QGraphicsSceneHoverEvent*) override; +}; + +#endif diff --git a/src/kdefrontend/GuiObserver.cpp b/src/kdefrontend/GuiObserver.cpp index 6483c0f79..aff9b9dbb 100644 --- a/src/kdefrontend/GuiObserver.cpp +++ b/src/kdefrontend/GuiObserver.cpp @@ -1,459 +1,466 @@ /*************************************************************************** File : GuiObserver.cpp Project : LabPlot Description : GUI observer -------------------------------------------------------------------- Copyright : (C) 2010-2015 Alexander Semke (alexander.semke@web.de) Copyright : (C) 2015-2018 Stefan Gerlach (stefan.gerlach@uni.kn) Copyright : (C) 2016 Garvit Khatri (garvitdelhi@gmail.com) ***************************************************************************/ /*************************************************************************** * * * 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 "kdefrontend/GuiObserver.h" #include "backend/core/AspectTreeModel.h" #include "backend/core/AbstractAspect.h" #include "backend/datasources/LiveDataSource.h" #include "backend/matrix/Matrix.h" #include "backend/spreadsheet/Spreadsheet.h" #include "backend/worksheet/Worksheet.h" #include "backend/worksheet/plots/cartesian/CartesianPlot.h" #include "backend/worksheet/plots/cartesian/CartesianPlotLegend.h" #include "backend/worksheet/plots/cartesian/XYCurve.h" #include "backend/worksheet/plots/cartesian/Axis.h" #include "backend/worksheet/plots/cartesian/CustomPoint.h" +#include "backend/worksheet/plots/cartesian/ReferenceLine.h" #include "backend/worksheet/plots/cartesian/Histogram.h" #include "backend/worksheet/Image.h" #include "backend/worksheet/TextLabel.h" #ifdef HAVE_CANTOR_LIBS #include "backend/cantorWorksheet/CantorWorksheet.h" #endif #ifdef HAVE_MQTT #include "backend/datasources/MQTTClient.h" #include "backend/datasources/MQTTSubscription.h" #include "backend/datasources/MQTTTopic.h" #endif #include "backend/core/Project.h" #include "backend/datapicker/Datapicker.h" #include "backend/datapicker/DatapickerImage.h" #include "backend/datapicker/DatapickerCurve.h" #include "commonfrontend/ProjectExplorer.h" #include "kdefrontend/MainWin.h" #include "kdefrontend/dockwidgets/AxisDock.h" #include "kdefrontend/dockwidgets/NoteDock.h" #include "kdefrontend/dockwidgets/CursorDock.h" #include "kdefrontend/dockwidgets/CartesianPlotDock.h" #include "kdefrontend/dockwidgets/CartesianPlotLegendDock.h" #include "kdefrontend/dockwidgets/ColumnDock.h" #include "kdefrontend/dockwidgets/ImageDock.h" #include "kdefrontend/dockwidgets/LiveDataDock.h" #include "kdefrontend/dockwidgets/MatrixDock.h" #include "kdefrontend/dockwidgets/ProjectDock.h" #include "kdefrontend/dockwidgets/SpreadsheetDock.h" #include "kdefrontend/dockwidgets/XYCurveDock.h" #include "kdefrontend/dockwidgets/HistogramDock.h" #include "kdefrontend/dockwidgets/XYEquationCurveDock.h" #include "kdefrontend/dockwidgets/XYDataReductionCurveDock.h" #include "kdefrontend/dockwidgets/XYDifferentiationCurveDock.h" #include "kdefrontend/dockwidgets/XYIntegrationCurveDock.h" #include "kdefrontend/dockwidgets/XYInterpolationCurveDock.h" #include "kdefrontend/dockwidgets/XYSmoothCurveDock.h" #include "kdefrontend/dockwidgets/XYFitCurveDock.h" #include "kdefrontend/dockwidgets/XYFourierFilterCurveDock.h" #include "kdefrontend/dockwidgets/XYFourierTransformCurveDock.h" #include "kdefrontend/dockwidgets/XYConvolutionCurveDock.h" #include "kdefrontend/dockwidgets/XYCorrelationCurveDock.h" #include "kdefrontend/dockwidgets/CustomPointDock.h" +#include "kdefrontend/dockwidgets/ReferenceLineDock.h" #include "kdefrontend/dockwidgets/WorksheetDock.h" #ifdef HAVE_CANTOR_LIBS #include "kdefrontend/dockwidgets/CantorWorksheetDock.h" #endif #include "kdefrontend/widgets/LabelWidget.h" #include "kdefrontend/widgets/DatapickerImageWidget.h" #include "kdefrontend/widgets/DatapickerCurveWidget.h" #include #include #include #include #include /*! \class GuiObserver \brief The GUI observer looks for the selection changes in the main window and shows/hides the correspondings dock widgets, toolbars etc. This class is intended to simplify (or not to overload) the code in MainWin. \ingroup kdefrontend */ namespace GuiObserverHelper { template bool raiseDock(T*& dock, QStackedWidget* parent) { const bool generated = !dock; if (generated) { dock = new T(parent); parent->addWidget(dock); } parent->setCurrentWidget(dock); return generated; } template void raiseDockConnect(T*& dock, QStatusBar* statusBar, QStackedWidget* parent) { if (raiseDock(dock, parent)) QObject::connect(dock, &T::info, [=](const QString& text){ statusBar->showMessage(text); }); } template void raiseDockSetupConnect(T*& dock, QStatusBar* statusBar, QStackedWidget* parent) { if (raiseDock(dock, parent)) { dock->setupGeneral(); QObject::connect(dock, &T::info, [=](const QString& text){ statusBar->showMessage(text); }); } } template QList castList(QList& selectedAspects) { QList list; for (auto* aspect : selectedAspects) list << static_cast(aspect); return list; } } using namespace GuiObserverHelper; GuiObserver::GuiObserver(MainWin* mainWin) { connect(mainWin->m_projectExplorer, &ProjectExplorer::selectedAspectsChanged, this, &GuiObserver::selectedAspectsChanged); connect(mainWin->m_projectExplorer, &ProjectExplorer::hiddenAspectSelected, this, &GuiObserver::hiddenAspectSelected); m_mainWindow = mainWin; } /*! called on selection changes in the project explorer. Determines the type of the currently selected objects (aspects) and activates the corresponding dockwidgets, toolbars etc. */ void GuiObserver::selectedAspectsChanged(QList& selectedAspects) const { auto clearDock = [&](){ if (m_mainWindow->stackedWidget->currentWidget()) m_mainWindow->stackedWidget->currentWidget()->hide(); m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Properties")); }; if (selectedAspects.isEmpty()) { clearDock(); return; } // update cursor dock AbstractAspect* parent = selectedAspects[0]->parent(AspectType::Worksheet); if (selectedAspects[0]->inherits(AspectType::Worksheet)) { if (m_mainWindow->cursorWidget) { Worksheet* worksheet = static_cast(selectedAspects[0]); m_mainWindow->cursorWidget->setWorksheet(worksheet); } } else if (parent) { if (m_mainWindow->cursorWidget) { Worksheet* worksheet = static_cast(parent); m_mainWindow->cursorWidget->setWorksheet(worksheet); } } const AspectType type = selectedAspects.front()->type(); // Check, whether objects of different types were selected. // Don't show any dock widgets in this case. for (auto* aspect : selectedAspects) { if (aspect->type() != type) { clearDock(); return; } } switch (type) { case AspectType::Spreadsheet: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Spreadsheet")); raiseDockConnect(m_mainWindow->spreadsheetDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->spreadsheetDock->setSpreadsheets(castList(selectedAspects)); break; case AspectType::Column: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Column")); raiseDockConnect(m_mainWindow->columnDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->columnDock->setColumns(castList(selectedAspects)); break; case AspectType::Matrix: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Matrix")); raiseDockConnect(m_mainWindow->matrixDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->matrixDock->setMatrices(castList(selectedAspects)); break; case AspectType::Worksheet: { m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Worksheet")); if (!m_mainWindow->worksheetDock) { m_mainWindow->worksheetDock = new WorksheetDock(m_mainWindow->stackedWidget); connect(m_mainWindow->worksheetDock, SIGNAL(info(QString)), m_mainWindow->statusBar(), SLOT(showMessage(QString))); m_mainWindow->stackedWidget->addWidget(m_mainWindow->worksheetDock); } raiseDockConnect(m_mainWindow->worksheetDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->worksheetDock->setWorksheets(castList(selectedAspects)); break; } case AspectType::CartesianPlot: { m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Cartesian Plot")); raiseDockConnect(m_mainWindow->cartesianPlotDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->cartesianPlotDock->setPlots(castList(selectedAspects)); break; } case AspectType::CartesianPlotLegend: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Legend")); raiseDockConnect(m_mainWindow->cartesianPlotLegendDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->cartesianPlotLegendDock->setLegends(castList(selectedAspects)); break; case AspectType::Axis: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Axis")); raiseDockConnect(m_mainWindow->axisDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->axisDock->setAxes(castList(selectedAspects)); break; case AspectType::XYCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "xy-Curve")); raiseDockSetupConnect(m_mainWindow->xyCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYEquationCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "xy-Equation")); raiseDockSetupConnect(m_mainWindow->xyEquationCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyEquationCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYDataReductionCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Data Reduction")); if (!m_mainWindow->xyDataReductionCurveDock) { m_mainWindow->xyDataReductionCurveDock = new XYDataReductionCurveDock(m_mainWindow->stackedWidget, m_mainWindow->statusBar()); m_mainWindow->xyDataReductionCurveDock->setupGeneral(); connect(m_mainWindow->xyDataReductionCurveDock, &XYDataReductionCurveDock::info, [&](const QString& text){ m_mainWindow->statusBar()->showMessage(text); }); m_mainWindow->stackedWidget->addWidget(m_mainWindow->xyDataReductionCurveDock); } m_mainWindow->xyDataReductionCurveDock->setCurves(castList(selectedAspects)); m_mainWindow->stackedWidget->setCurrentWidget(m_mainWindow->xyDataReductionCurveDock); break; case AspectType::XYDifferentiationCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Differentiation")); raiseDockSetupConnect(m_mainWindow->xyDifferentiationCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyDifferentiationCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYIntegrationCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Integration")); raiseDockSetupConnect(m_mainWindow->xyIntegrationCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyIntegrationCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYInterpolationCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Interpolation")); raiseDockSetupConnect(m_mainWindow->xyInterpolationCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyInterpolationCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYSmoothCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Smoothing")); raiseDockSetupConnect(m_mainWindow->xySmoothCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xySmoothCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYFitCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Fit")); raiseDockSetupConnect(m_mainWindow->xyFitCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyFitCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYFourierTransformCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Fourier Transform")); raiseDockSetupConnect(m_mainWindow->xyFourierTransformCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyFourierTransformCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYFourierFilterCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Fourier Filter")); raiseDockSetupConnect(m_mainWindow->xyFourierFilterCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyFourierFilterCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYConvolution: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Convolution/Deconvolution")); raiseDockSetupConnect(m_mainWindow->xyConvolutionCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyConvolutionCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::XYCorrelationCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Auto-/Cross-Correlation")); raiseDockSetupConnect(m_mainWindow->xyCorrelationCurveDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->xyCorrelationCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::Histogram: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Histogram Properties")); raiseDockConnect(m_mainWindow->histogramDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); m_mainWindow->histogramDock->setCurves(castList(selectedAspects)); break; case AspectType::TextLabel: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Text Label")); raiseDock(m_mainWindow->textLabelDock, m_mainWindow->stackedWidget); m_mainWindow->textLabelDock->setLabels(castList(selectedAspects)); break; case AspectType::Image: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Image")); raiseDock(m_mainWindow->imageDock, m_mainWindow->stackedWidget); m_mainWindow->imageDock->setImages(castList(selectedAspects)); break; case AspectType::CustomPoint: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Custom Point")); raiseDock(m_mainWindow->customPointDock, m_mainWindow->stackedWidget); m_mainWindow->customPointDock->setPoints(castList(selectedAspects)); break; + case AspectType::ReferenceLine: + m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Reference Line")); + raiseDock(m_mainWindow->referenceLineDock, m_mainWindow->stackedWidget); + m_mainWindow->referenceLineDock->setReferenceLines(castList(selectedAspects)); + break; case AspectType::DatapickerCurve: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Datapicker Curve")); raiseDock(m_mainWindow->datapickerCurveDock, m_mainWindow->stackedWidget); m_mainWindow->datapickerCurveDock->setCurves(castList(selectedAspects)); break; case AspectType::Datapicker: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Datapicker")); raiseDock(m_mainWindow->datapickerImageDock, m_mainWindow->stackedWidget); { QList list; for (auto* aspect : selectedAspects) list << qobject_cast(aspect)->image(); m_mainWindow->datapickerImageDock->setImages(list); } break; case AspectType::Project: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Project")); raiseDock(m_mainWindow->projectDock, m_mainWindow->stackedWidget); m_mainWindow->projectDock->setProject(m_mainWindow->m_project); break; case AspectType::CantorWorksheet: #ifdef HAVE_CANTOR_LIBS raiseDockConnect(m_mainWindow->cantorWorksheetDock, m_mainWindow->statusBar(), m_mainWindow->stackedWidget); { QList list = castList(selectedAspects); if (list.size() == 1) m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window %1 is a Cantor backend", "%1 Properties", list.first()->backendName())); else m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "CAS Properties")); m_mainWindow->cantorWorksheetDock->setCantorWorksheets(list); } #endif break; case AspectType::Note: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Notes")); raiseDock(m_mainWindow->notesDock, m_mainWindow->stackedWidget); m_mainWindow->notesDock->setNotesList(castList(selectedAspects)); break; case AspectType::MQTTClient: #ifdef HAVE_MQTT m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "MQTT Data Source")); raiseDock(m_mainWindow->m_liveDataDock, m_mainWindow->stackedWidget); m_mainWindow->m_liveDataDock->setMQTTClient(static_cast(selectedAspects.first())); #endif break; case AspectType::MQTTSubscription: #ifdef HAVE_MQTT m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "MQTT Data Source")); raiseDock(m_mainWindow->m_liveDataDock, m_mainWindow->stackedWidget); m_mainWindow->m_liveDataDock->setMQTTClient(static_cast(selectedAspects.first())->mqttClient()); #endif break; case AspectType::MQTTTopic: #ifdef HAVE_MQTT m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "MQTT Data Source")); raiseDock(m_mainWindow->m_liveDataDock, m_mainWindow->stackedWidget); m_mainWindow->m_liveDataDock->setMQTTClient(static_cast(selectedAspects.first())->mqttClient()); #endif break; case AspectType::LiveDataSource: m_mainWindow->m_propertiesDock->setWindowTitle(i18nc("@title:window", "Live Data Source")); raiseDock(m_mainWindow->m_liveDataDock, m_mainWindow->stackedWidget); m_mainWindow->m_liveDataDock->setLiveDataSource(static_cast(selectedAspects.first())); break; case AspectType::AbstractAspect: case AspectType::AbstractColumn: case AspectType::AbstractDataSource: case AspectType::AbstractFilter: case AspectType::AbstractPart: case AspectType::AbstractPlot: case AspectType::ColumnStringIO: case AspectType::DatapickerImage: case AspectType::DatapickerPoint: case AspectType::Folder: case AspectType::PlotArea: case AspectType::SimpleFilterColumn: case AspectType::Workbook: case AspectType::WorksheetElement: case AspectType::WorksheetElementContainer: case AspectType::WorksheetElementGroup: case AspectType::XYAnalysisCurve: clearDock(); return; } m_mainWindow->stackedWidget->currentWidget()->show(); } /*! handles the selection of a hidden aspect \c aspect in the view (relevant for WorksheetView only at the moment). Currently, a hidden aspect can only be a plot title lable or an axis label. -> Activate the corresponding DockWidget and make the title tab current. */ void GuiObserver::hiddenAspectSelected(const AbstractAspect* aspect) const { const AbstractAspect* parent = aspect->parentAspect(); if (!parent) return; switch (static_cast(parent->type())) { // cast the enum to turn off warnings about unhandled cases case static_cast(AspectType::Axis): if (!m_mainWindow->axisDock) { m_mainWindow->axisDock = new AxisDock(m_mainWindow->stackedWidget); m_mainWindow->stackedWidget->addWidget(m_mainWindow->axisDock); } m_mainWindow->axisDock->activateTitleTab(); break; case static_cast(AspectType::CartesianPlot): if (!m_mainWindow->cartesianPlotDock) { m_mainWindow->cartesianPlotDock = new CartesianPlotDock(m_mainWindow->stackedWidget); m_mainWindow->stackedWidget->addWidget(m_mainWindow->cartesianPlotDock); } m_mainWindow->cartesianPlotDock->activateTitleTab(); break; case static_cast(AspectType::CartesianPlotLegend): if (!m_mainWindow->cartesianPlotLegendDock) { m_mainWindow->cartesianPlotLegendDock = new CartesianPlotLegendDock(m_mainWindow->stackedWidget); m_mainWindow->stackedWidget->addWidget(m_mainWindow->cartesianPlotLegendDock); } m_mainWindow->cartesianPlotLegendDock->activateTitleTab(); break; default: break; } } diff --git a/src/kdefrontend/MainWin.cpp b/src/kdefrontend/MainWin.cpp index a8bfdb47a..f979a1e79 100644 --- a/src/kdefrontend/MainWin.cpp +++ b/src/kdefrontend/MainWin.cpp @@ -1,2075 +1,2075 @@ /*************************************************************************** File : MainWin.cc Project : LabPlot Description : Main window of the application -------------------------------------------------------------------- Copyright : (C) 2008-2018 Stefan Gerlach (stefan.gerlach@uni.kn) - Copyright : (C) 2009-2018 Alexander Semke (alexander.semke@web.de) + Copyright : (C) 2009-2020 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 "MainWin.h" #include "backend/core/Project.h" #include "backend/core/Folder.h" #include "backend/core/AspectTreeModel.h" #include "backend/core/Workbook.h" #include "backend/spreadsheet/Spreadsheet.h" #include "backend/matrix/Matrix.h" #include "backend/worksheet/Worksheet.h" #include "backend/datasources/LiveDataSource.h" #ifdef HAVE_LIBORIGIN #include "backend/datasources/projects/OriginProjectParser.h" #endif #ifdef HAVE_CANTOR_LIBS #include "backend/cantorWorksheet/CantorWorksheet.h" #endif #include "backend/datapicker/Datapicker.h" #include "backend/note/Note.h" #include "backend/lib/macros.h" #include "backend/worksheet/plots/cartesian/CartesianPlot.h" #ifdef HAVE_MQTT #include "backend/datasources/MQTTClient.h" #endif #include "commonfrontend/core/PartMdiView.h" #include "commonfrontend/ProjectExplorer.h" #include "commonfrontend/matrix/MatrixView.h" #include "commonfrontend/spreadsheet/SpreadsheetView.h" #include "commonfrontend/worksheet/WorksheetView.h" #ifdef HAVE_CANTOR_LIBS #include "commonfrontend/cantorWorksheet/CantorWorksheetView.h" #endif #include "commonfrontend/datapicker/DatapickerView.h" #include "commonfrontend/datapicker/DatapickerImageView.h" #include "commonfrontend/note/NoteView.h" #include "commonfrontend/widgets/MemoryWidget.h" #include "kdefrontend/datasources/ImportFileDialog.h" #include "kdefrontend/datasources/ImportProjectDialog.h" #include "kdefrontend/datasources/ImportSQLDatabaseDialog.h" #include #include "kdefrontend/dockwidgets/ProjectDock.h" #include "kdefrontend/HistoryDialog.h" #include "kdefrontend/SettingsDialog.h" #include "kdefrontend/GuiObserver.h" #include "kdefrontend/widgets/FITSHeaderEditDialog.h" #ifdef Q_OS_MAC #include "3rdparty/kdmactouchbar/src/kdmactouchbar.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_CANTOR_LIBS #include #include #include #include #endif /*! \class MainWin \brief Main application window. \ingroup kdefrontend */ MainWin::MainWin(QWidget *parent, const QString& filename) : KXmlGuiWindow(parent) { initGUI(filename); setAcceptDrops(true); //restore the geometry KConfigGroup group = KSharedConfig::openConfig()->group("MainWin"); restoreGeometry(group.readEntry("geometry", QByteArray())); } MainWin::~MainWin() { //save the recent opened files m_recentProjectsAction->saveEntries( KSharedConfig::openConfig()->group("Recent Files") ); KConfigGroup group = KSharedConfig::openConfig()->group("MainWin"); group.writeEntry("geometry", saveGeometry()); KSharedConfig::openConfig()->sync(); if (m_project != nullptr) { m_mdiArea->closeAllSubWindows(); disconnect(m_project, nullptr, this, nullptr); delete m_project; } if (m_aspectTreeModel) delete m_aspectTreeModel; if (m_guiObserver) delete m_guiObserver; } void MainWin::showPresenter() { const Worksheet* w = dynamic_cast(m_currentAspect); if (w) { auto* view = dynamic_cast(w->view()); view->presenterMode(); } else { //currently active object is not a worksheet but we're asked to start in the presenter mode //determine the first available worksheet and show it in the presenter mode QVector worksheets = m_project->children(); if (worksheets.size() > 0) { auto* view = qobject_cast(worksheets.first()->view()); view->presenterMode(); } else { QMessageBox::information(this, i18n("Presenter Mode"), i18n("No worksheets are available in the project. The presenter mode will not be started.")); } } } AspectTreeModel* MainWin::model() const { return m_aspectTreeModel; } Project* MainWin::project() const { return m_project; } void MainWin::initGUI(const QString& fileName) { m_mdiArea = new QMdiArea; setCentralWidget(m_mdiArea); connect(m_mdiArea, &QMdiArea::subWindowActivated, this, &MainWin::handleCurrentSubWindowChanged); statusBar()->showMessage(i18nc("%1 is the LabPlot version", "Welcome to LabPlot %1", QLatin1String(LVERSION))); initActions(); #ifdef Q_OS_MAC setupGUI(Default, QLatin1String("/Applications/labplot2.app/Contents/Resources/labplot2ui.rc")); m_touchBar = new KDMacTouchBar(this); //m_touchBar->setTouchButtonStyle(KDMacTouchBar::IconOnly); #else setupGUI(Default, KXMLGUIClient::xmlFile()); // should be "labplot2ui.rc" #endif DEBUG("Component name: " << KXMLGUIClient::componentName().toStdString()); DEBUG("XML file: " << KXMLGUIClient::xmlFile().toStdString() << " (should be \"labplot2ui.rc\")"); //all toolbars created via the KXMLGUI framework are locked on default: // * on the very first program start, unlock all toolbars // * on later program starts, set stored lock status //Furthermore, we want to show icons only after the first program start. KConfigGroup groupMain = KSharedConfig::openConfig()->group("MainWindow"); if (groupMain.exists()) { //KXMLGUI framework automatically stores "Disabled" for the key "ToolBarsMovable" //in case the toolbars are locked -> load this value const QString& str = groupMain.readEntry(QLatin1String("ToolBarsMovable"), ""); bool locked = (str == QLatin1String("Disabled")); KToolBar::setToolBarsLocked(locked); } else { //first start KToolBar::setToolBarsLocked(false); //show icons only for (auto* container : factory()->containers(QLatin1String("ToolBar"))) { auto* toolbar = dynamic_cast(container); if (toolbar) toolbar->setToolButtonStyle(Qt::ToolButtonIconOnly); } } initMenus(); auto* mainToolBar = qobject_cast(factory()->container("main_toolbar", this)); if (!mainToolBar) { QMessageBox::critical(this, i18n("GUI configuration file not found"), i18n("%1 file was not found. Please check your installation.", KXMLGUIClient::xmlFile())); //TODO: the application is not really usable if the rc file was not found. We should quit the application. The following line crashes //the application because of the splash screen. We need to find another solution. // QMetaObject::invokeMethod(this, "close", Qt::QueuedConnection); //call close as soon as we enter the eventloop return; } auto* tbImport = new QToolButton(mainToolBar); tbImport->setPopupMode(QToolButton::MenuButtonPopup); tbImport->setMenu(m_importMenu); tbImport->setDefaultAction(m_importFileAction); mainToolBar->addWidget(tbImport); qobject_cast(factory()->container("import", this))->setIcon(QIcon::fromTheme("document-import")); setWindowIcon(QIcon::fromTheme("LabPlot2", QGuiApplication::windowIcon())); setAttribute( Qt::WA_DeleteOnClose ); //make the status bar of a fixed size in order to avoid height changes when placing a ProgressBar there. QFont font; font.setFamily(font.defaultFamily()); QFontMetrics fm(font); statusBar()->setFixedHeight(fm.height() + 5); //load recently used projects m_recentProjectsAction->loadEntries( KSharedConfig::openConfig()->group("Recent Files") ); //set the view mode of the mdi area KConfigGroup group = KSharedConfig::openConfig()->group( "Settings_General" ); int viewMode = group.readEntry("ViewMode", 0); if (viewMode == 1) { m_mdiArea->setViewMode(QMdiArea::TabbedView); int tabPosition = group.readEntry("TabPosition", 0); m_mdiArea->setTabPosition(QTabWidget::TabPosition(tabPosition)); m_mdiArea->setTabsClosable(true); m_mdiArea->setTabsMovable(true); m_tileWindows->setVisible(false); m_cascadeWindows->setVisible(false); } //auto-save m_autoSaveActive = group.readEntry("AutoSave", false); int interval = group.readEntry("AutoSaveInterval", 1); interval = interval*60*1000; m_autoSaveTimer.setInterval(interval); connect(&m_autoSaveTimer, &QTimer::timeout, this, &MainWin::autoSaveProject); if (!fileName.isEmpty()) { #ifdef HAVE_LIBORIGIN if (Project::isLabPlotProject(fileName) || OriginProjectParser::isOriginProject(fileName)) { #else if (Project::isLabPlotProject(fileName)) { #endif QTimer::singleShot(0, this, [=] () { openProject(fileName); }); } else { newProject(); QTimer::singleShot(0, this, [=] () { importFileDialog(fileName); }); } } else { //There is no file to open. Depending on the settings do nothing, //create a new project or open the last used project. int load = group.readEntry("LoadOnStart", 0); if (load == 1) //create new project newProject(); else if (load == 2) { //create new project with a worksheet newProject(); newWorksheet(); } else if (load == 3) { //open last used project if (!m_recentProjectsAction->urls().isEmpty()) { QDEBUG("TO OPEN m_recentProjectsAction->urls() =" << m_recentProjectsAction->urls().constFirst()); openRecentProject( m_recentProjectsAction->urls().constFirst() ); } } } //show memory info const bool showMemoryInfo = group.readEntry(QLatin1String("ShowMemoryInfo"), true); if (showMemoryInfo) { m_memoryInfoWidget = new MemoryWidget(statusBar()); statusBar()->addPermanentWidget(m_memoryInfoWidget); } updateGUIOnProjectChanges(); } void MainWin::initActions() { // ******************** File-menu ******************************* //add some standard actions m_newProjectAction = KStandardAction::openNew(this, SLOT(newProject()),actionCollection()); m_openProjectAction = KStandardAction::open(this, SLOT(openProject()),actionCollection()); m_recentProjectsAction = KStandardAction::openRecent(this, SLOT(openRecentProject(QUrl)),actionCollection()); m_closeAction = KStandardAction::close(this, SLOT(closeProject()),actionCollection()); actionCollection()->setDefaultShortcut(m_closeAction, QKeySequence()); //remove the shortcut, QKeySequence::Close will be used for closing sub-windows m_saveAction = KStandardAction::save(this, SLOT(saveProject()),actionCollection()); m_saveAsAction = KStandardAction::saveAs(this, SLOT(saveProjectAs()),actionCollection()); m_printAction = KStandardAction::print(this, SLOT(print()),actionCollection()); m_printPreviewAction = KStandardAction::printPreview(this, SLOT(printPreview()),actionCollection()); //TODO: on Mac OS when going full-screen we get a crash because of an stack-overflow #ifndef Q_OS_MAC KStandardAction::fullScreen(this, SLOT(toggleFullScreen()), this, actionCollection()); #endif //New Folder/Workbook/Spreadsheet/Matrix/Worksheet/Datasources m_newWorkbookAction = new QAction(QIcon::fromTheme("labplot-workbook-new"),i18n("Workbook"),this); actionCollection()->addAction("new_workbook", m_newWorkbookAction); m_newWorkbookAction->setWhatsThis(i18n("Creates a new workbook for collection spreadsheets, matrices and plots")); connect(m_newWorkbookAction, &QAction::triggered, this, &MainWin::newWorkbook); m_newDatapickerAction = new QAction(QIcon::fromTheme("color-picker-black"), i18n("Datapicker"), this); m_newDatapickerAction->setWhatsThis(i18n("Creates a data picker for getting data from a picture")); actionCollection()->addAction("new_datapicker", m_newDatapickerAction); connect(m_newDatapickerAction, &QAction::triggered, this, &MainWin::newDatapicker); m_newSpreadsheetAction = new QAction(QIcon::fromTheme("labplot-spreadsheet-new"),i18n("Spreadsheet"),this); // m_newSpreadsheetAction->setShortcut(Qt::CTRL+Qt::Key_Equal); m_newSpreadsheetAction->setWhatsThis(i18n("Creates a new spreadsheet for data editing")); actionCollection()->addAction("new_spreadsheet", m_newSpreadsheetAction); connect(m_newSpreadsheetAction, &QAction::triggered, this, &MainWin::newSpreadsheet); m_newMatrixAction = new QAction(QIcon::fromTheme("labplot-matrix-new"),i18n("Matrix"),this); // m_newMatrixAction->setShortcut(Qt::CTRL+Qt::Key_Equal); m_newMatrixAction->setWhatsThis(i18n("Creates a new matrix for data editing")); actionCollection()->addAction("new_matrix", m_newMatrixAction); connect(m_newMatrixAction, &QAction::triggered, this, &MainWin::newMatrix); m_newWorksheetAction = new QAction(QIcon::fromTheme("labplot-worksheet-new"),i18n("Worksheet"),this); // m_newWorksheetAction->setShortcut(Qt::ALT+Qt::Key_X); m_newWorksheetAction->setWhatsThis(i18n("Creates a new worksheet for data plotting")); actionCollection()->addAction("new_worksheet", m_newWorksheetAction); connect(m_newWorksheetAction, &QAction::triggered, this, &MainWin::newWorksheet); m_newNotesAction = new QAction(QIcon::fromTheme("document-new"),i18n("Note"),this); m_newNotesAction->setWhatsThis(i18n("Creates a new note for arbitrary text")); actionCollection()->addAction("new_notes", m_newNotesAction); connect(m_newNotesAction, &QAction::triggered, this, &MainWin::newNotes); // m_newScriptAction = new QAction(QIcon::fromTheme("insert-text"),i18n("Note/Script"),this); // actionCollection()->addAction("new_script", m_newScriptAction); // connect(m_newScriptAction, &QAction::triggered,SLOT(newScript())); m_newFolderAction = new QAction(QIcon::fromTheme("folder-new"),i18n("Folder"),this); m_newFolderAction->setWhatsThis(i18n("Creates a new folder to collect sheets and other elements")); actionCollection()->addAction("new_folder", m_newFolderAction); connect(m_newFolderAction, &QAction::triggered, this, &MainWin::newFolder); //"New file datasources" m_newLiveDataSourceAction = new QAction(QIcon::fromTheme("application-octet-stream"),i18n("Live Data Source"),this); m_newLiveDataSourceAction->setWhatsThis(i18n("Creates a live data source to read data from a real time device")); actionCollection()->addAction("new_live_datasource", m_newLiveDataSourceAction); connect(m_newLiveDataSourceAction, &QAction::triggered, this, &MainWin::newLiveDataSourceActionTriggered); //Import/Export m_importFileAction = new QAction(QIcon::fromTheme("document-import"), i18n("Import from File"), this); actionCollection()->setDefaultShortcut(m_importFileAction, Qt::CTRL+Qt::SHIFT+Qt::Key_I); m_importFileAction->setWhatsThis(i18n("Import data from a regular file")); actionCollection()->addAction("import_file", m_importFileAction); connect(m_importFileAction, &QAction::triggered, this, [=]() {importFileDialog();}); m_importSqlAction = new QAction(QIcon::fromTheme("document-import-database"), i18n("Import from SQL Database"), this); m_importSqlAction->setWhatsThis(i18n("Import data from a SQL database")); actionCollection()->addAction("import_sql", m_importSqlAction); connect(m_importSqlAction, &QAction::triggered, this, &MainWin::importSqlDialog); m_importLabPlotAction = new QAction(QIcon::fromTheme("document-import"), i18n("Import from LabPlot Project"), this); m_importLabPlotAction->setWhatsThis(i18n("Import a project from a LabPlot project file (.lml)")); actionCollection()->addAction("import_labplot", m_importLabPlotAction); connect(m_importLabPlotAction, &QAction::triggered, this, &MainWin::importProjectDialog); #ifdef HAVE_LIBORIGIN m_importOpjAction = new QAction(QIcon::fromTheme("document-import-database"), i18n("Import from Origin Project (OPJ)"), this); m_importOpjAction->setWhatsThis(i18n("Import a project from an OriginLab Origin project file (.opj)")); actionCollection()->addAction("import_opj", m_importOpjAction); connect(m_importOpjAction, &QAction::triggered, this, &MainWin::importProjectDialog); #endif m_exportAction = new QAction(QIcon::fromTheme("document-export"), i18n("Export"), this); m_exportAction->setWhatsThis(i18n("Export selected element")); actionCollection()->setDefaultShortcut(m_exportAction, Qt::CTRL+Qt::SHIFT+Qt::Key_E); actionCollection()->addAction("export", m_exportAction); connect(m_exportAction, &QAction::triggered, this, &MainWin::exportDialog); m_editFitsFileAction = new QAction(QIcon::fromTheme("editor"), i18n("FITS Metadata Editor"), this); m_editFitsFileAction->setWhatsThis(i18n("Open editor to edit FITS meta data")); actionCollection()->addAction("edit_fits", m_editFitsFileAction); connect(m_editFitsFileAction, &QAction::triggered, this, &MainWin::editFitsFileDialog); // Edit //Undo/Redo-stuff m_undoAction = KStandardAction::undo(this, SLOT(undo()), actionCollection()); m_redoAction = KStandardAction::redo(this, SLOT(redo()), actionCollection()); m_historyAction = new QAction(QIcon::fromTheme("view-history"), i18n("Undo/Redo History"),this); actionCollection()->addAction("history", m_historyAction); connect(m_historyAction, &QAction::triggered, this, &MainWin::historyDialog); // TODO: more menus // Appearance // Analysis: see WorksheetView.cpp // Drawing // Script //Windows QAction* action = new QAction(i18n("&Close"), this); actionCollection()->setDefaultShortcut(action, QKeySequence::Close); action->setStatusTip(i18n("Close the active window")); actionCollection()->addAction("close window", action); connect(action, &QAction::triggered, m_mdiArea, &QMdiArea::closeActiveSubWindow); action = new QAction(i18n("Close &All"), this); action->setStatusTip(i18n("Close all the windows")); actionCollection()->addAction("close all windows", action); connect(action, &QAction::triggered, m_mdiArea, &QMdiArea::closeAllSubWindows); m_tileWindows = new QAction(i18n("&Tile"), this); m_tileWindows->setStatusTip(i18n("Tile the windows")); actionCollection()->addAction("tile windows", m_tileWindows); connect(m_tileWindows, &QAction::triggered, m_mdiArea, &QMdiArea::tileSubWindows); m_cascadeWindows = new QAction(i18n("&Cascade"), this); m_cascadeWindows->setStatusTip(i18n("Cascade the windows")); actionCollection()->addAction("cascade windows", m_cascadeWindows); connect(m_cascadeWindows, &QAction::triggered, m_mdiArea, &QMdiArea::cascadeSubWindows); action = new QAction(QIcon::fromTheme("go-next-view"), i18n("Ne&xt"), this); actionCollection()->setDefaultShortcut(action, QKeySequence::NextChild); action->setStatusTip(i18n("Move the focus to the next window")); actionCollection()->addAction("next window", action); connect(action, &QAction::triggered, m_mdiArea, &QMdiArea::activateNextSubWindow); action = new QAction(QIcon::fromTheme("go-previous-view"), i18n("Pre&vious"), this); actionCollection()->setDefaultShortcut(action, QKeySequence::PreviousChild); action->setStatusTip(i18n("Move the focus to the previous window")); actionCollection()->addAction("previous window", action); connect(action, &QAction::triggered, m_mdiArea, &QMdiArea::activatePreviousSubWindow); //"Standard actions" KStandardAction::preferences(this, SLOT(settingsDialog()), actionCollection()); KStandardAction::quit(this, SLOT(close()), actionCollection()); //Actions for window visibility auto* windowVisibilityActions = new QActionGroup(this); windowVisibilityActions->setExclusive(true); m_visibilityFolderAction = new QAction(QIcon::fromTheme("folder"), i18n("Current &Folder Only"), windowVisibilityActions); m_visibilityFolderAction->setCheckable(true); m_visibilityFolderAction->setData(Project::folderOnly); m_visibilitySubfolderAction = new QAction(QIcon::fromTheme("folder-documents"), i18n("Current Folder and &Subfolders"), windowVisibilityActions); m_visibilitySubfolderAction->setCheckable(true); m_visibilitySubfolderAction->setData(Project::folderAndSubfolders); m_visibilityAllAction = new QAction(i18n("&All"), windowVisibilityActions); m_visibilityAllAction->setCheckable(true); m_visibilityAllAction->setData(Project::allMdiWindows); connect(windowVisibilityActions, &QActionGroup::triggered, this, &MainWin::setMdiWindowVisibility); //Actions for hiding/showing the dock widgets auto* docksActions = new QActionGroup(this); docksActions->setExclusive(false); m_toggleProjectExplorerDockAction = new QAction(QIcon::fromTheme("view-list-tree"), i18n("Project Explorer"), docksActions); m_toggleProjectExplorerDockAction->setCheckable(true); m_toggleProjectExplorerDockAction->setChecked(true); actionCollection()->addAction("toggle_project_explorer_dock", m_toggleProjectExplorerDockAction); m_togglePropertiesDockAction = new QAction(QIcon::fromTheme("view-list-details"), i18n("Properties Explorer"), docksActions); m_togglePropertiesDockAction->setCheckable(true); m_togglePropertiesDockAction->setChecked(true); actionCollection()->addAction("toggle_properties_explorer_dock", m_togglePropertiesDockAction); connect(docksActions, &QActionGroup::triggered, this, &MainWin::toggleDockWidget); //global search QAction* searchAction = new QAction(actionCollection()); searchAction->setShortcut(QKeySequence::Find); connect(searchAction, &QAction::triggered, this, [=]() { if (m_project) { if (!m_projectExplorerDock->isVisible()) { m_toggleProjectExplorerDockAction->setChecked(true); toggleDockWidget(m_toggleProjectExplorerDockAction); } m_projectExplorer->search(); } }); this->addAction(searchAction); } void MainWin::initMenus() { //menu in the main toolbar for adding new aspects auto* menu = dynamic_cast(factory()->container("new", this)); menu->setIcon(QIcon::fromTheme("window-new")); //menu in the project explorer and in the toolbar for adding new aspects m_newMenu = new QMenu(i18n("Add New"), this); m_newMenu->setIcon(QIcon::fromTheme("window-new")); m_newMenu->addAction(m_newFolderAction); m_newMenu->addAction(m_newWorkbookAction); m_newMenu->addAction(m_newSpreadsheetAction); m_newMenu->addAction(m_newMatrixAction); m_newMenu->addAction(m_newWorksheetAction); m_newMenu->addAction(m_newNotesAction); m_newMenu->addAction(m_newDatapickerAction); m_newMenu->addSeparator(); m_newMenu->addAction(m_newLiveDataSourceAction); //import menu m_importMenu = new QMenu(this); m_importMenu->setIcon(QIcon::fromTheme("document-import")); m_importMenu ->addAction(m_importFileAction); m_importMenu ->addAction(m_importSqlAction); m_importMenu->addSeparator(); m_importMenu->addAction(m_importLabPlotAction); #ifdef HAVE_LIBORIGIN m_importMenu ->addAction(m_importOpjAction); #endif #ifdef HAVE_CANTOR_LIBS m_newMenu->addSeparator(); m_newCantorWorksheetMenu = new QMenu(i18n("CAS Worksheet"), this); m_newCantorWorksheetMenu->setIcon(QIcon::fromTheme("archive-insert")); //"Adding Cantor backends to menu and context menu" QStringList m_availableBackend = Cantor::Backend::listAvailableBackends(); if (m_availableBackend.count() > 0) { unplugActionList(QLatin1String("backends_list")); QList newBackendActions; for (Cantor::Backend* backend : Cantor::Backend::availableBackends()) { if (!backend->isEnabled()) continue; QAction* action = new QAction(QIcon::fromTheme(backend->icon()), backend->name(),this); action->setData(backend->name()); newBackendActions << action; m_newCantorWorksheetMenu->addAction(action); } connect(m_newCantorWorksheetMenu, &QMenu::triggered, this, &MainWin::newCantorWorksheet); plugActionList(QLatin1String("backends_list"), newBackendActions); } m_newMenu->addMenu(m_newCantorWorksheetMenu); #else delete this->guiFactory()->container("cas_worksheet", this); delete this->guiFactory()->container("new_cas_worksheet", this); delete this->guiFactory()->container("cas_worksheet_toolbar", this); #endif //menu subwindow visibility policy m_visibilityMenu = new QMenu(i18n("Window Visibility Policy"), this); m_visibilityMenu->setIcon(QIcon::fromTheme("window-duplicate")); m_visibilityMenu ->addAction(m_visibilityFolderAction); m_visibilityMenu ->addAction(m_visibilitySubfolderAction); m_visibilityMenu ->addAction(m_visibilityAllAction); //menu for editing files m_editMenu = new QMenu(i18n("Edit"), this); m_editMenu->addAction(m_editFitsFileAction); KColorSchemeManager schemeManager; KActionMenu* schemesMenu = schemeManager.createSchemeSelectionMenu(i18n("Color Scheme"), QString(), this); schemesMenu->setIcon(QIcon::fromTheme(QStringLiteral("preferences-desktop-color"))); QMenu* settingsMenu = dynamic_cast(factory()->container("settings", this)); if (settingsMenu) settingsMenu->insertMenu(settingsMenu->actions().constFirst(), schemesMenu->menu()); //set the action for the current color scheme checked KConfigGroup generalGlobalsGroup = KSharedConfig::openConfig(QLatin1String("kdeglobals"))->group("General"); QString defaultSchemeName = generalGlobalsGroup.readEntry("ColorScheme", QStringLiteral("Breeze")); KConfigGroup group = KSharedConfig::openConfig()->group(QLatin1String("Settings_General")); QString schemeName = group.readEntry("ColorScheme", defaultSchemeName); for (auto* action : schemesMenu->menu()->actions()) { if (action->text() == schemeName) { action->setChecked(true); break; } } connect(schemesMenu->menu(), &QMenu::triggered, this, &MainWin::colorSchemeChanged); #ifdef HAVE_CANTOR_LIBS QAction* action = new QAction(QIcon::fromTheme(QLatin1String("cantor")), i18n("Configure CAS"), this); connect(action, &QAction::triggered, this, &MainWin::cantorSettingsDialog); if (settingsMenu) settingsMenu->addAction(action); #endif } void MainWin::colorSchemeChanged(QAction* action) { QString schemeName = KLocalizedString::removeAcceleratorMarker(action->text()); //background of the mdi area is not updated on theme changes, do it here. KColorSchemeManager schemeManager; QModelIndex index = schemeManager.indexForScheme(schemeName); const QPalette& palette = KColorScheme::createApplicationPalette( KSharedConfig::openConfig(index.data(Qt::UserRole).toString()) ); const QBrush& brush = palette.brush(QPalette::Dark); m_mdiArea->setBackground(brush); //save the selected color scheme KConfigGroup group = KSharedConfig::openConfig()->group(QLatin1String("Settings_General")); group.writeEntry("ColorScheme", schemeName); group.sync(); } /*! Asks to save the project if it was modified. \return \c true if the project still needs to be saved ("cancel" clicked), \c false otherwise. */ bool MainWin::warnModified() { if (m_project->hasChanged()) { int want_save = KMessageBox::warningYesNoCancel( this, i18n("The current project %1 has been modified. Do you want to save it?", m_project->name()), i18n("Save Project")); switch (want_save) { case KMessageBox::Yes: return !saveProject(); case KMessageBox::No: break; case KMessageBox::Cancel: return true; } } return false; } /*! * updates the state of actions, menus and toolbars (enabled or disabled) * on project changes (project closes and opens) */ void MainWin::updateGUIOnProjectChanges() { if (m_closing) return; KXMLGUIFactory* factory = this->guiFactory(); if (factory->container("worksheet", this) == nullptr) { //no worksheet menu found, most probably labplot2ui.rc //was not properly installed -> return here in order not to crash return; } //disable all menus if there is no project bool b = (m_project == nullptr); m_saveAction->setEnabled(!b); m_saveAsAction->setEnabled(!b); m_printAction->setEnabled(!b); m_printPreviewAction->setEnabled(!b); m_importFileAction->setEnabled(!b); m_importSqlAction->setEnabled(!b); #ifdef HAVE_LIBORIGIN m_importOpjAction->setEnabled(!b); #endif m_exportAction->setEnabled(!b); m_newWorkbookAction->setEnabled(!b); m_newSpreadsheetAction->setEnabled(!b); m_newMatrixAction->setEnabled(!b); m_newWorksheetAction->setEnabled(!b); m_newDatapickerAction->setEnabled(!b); m_closeAction->setEnabled(!b); m_toggleProjectExplorerDockAction->setEnabled(!b); m_togglePropertiesDockAction->setEnabled(!b); if (!m_mdiArea->currentSubWindow()) { factory->container("spreadsheet", this)->setEnabled(false); factory->container("matrix", this)->setEnabled(false); factory->container("worksheet", this)->setEnabled(false); factory->container("analysis", this)->setEnabled(false); factory->container("datapicker", this)->setEnabled(false); factory->container("spreadsheet_toolbar", this)->hide(); factory->container("worksheet_toolbar", this)->hide(); factory->container("cartesian_plot_toolbar", this)->hide(); // factory->container("histogram_toolbar",this)->hide(); // factory->container("barchart_toolbar",this)->hide(); factory->container("datapicker_toolbar", this)->hide(); #ifdef HAVE_CANTOR_LIBS factory->container("cas_worksheet", this)->setEnabled(false); factory->container("cas_worksheet_toolbar", this)->hide(); #endif } factory->container("new", this)->setEnabled(!b); factory->container("edit", this)->setEnabled(!b); factory->container("import", this)->setEnabled(!b); if (b) setCaption("LabPlot2"); else setCaption(m_project->name()); #ifdef Q_OS_MAC m_touchBar->clear(); if (b){ m_touchBar->addAction(m_newProjectAction); m_touchBar->addAction(m_openProjectAction); } else { m_touchBar->addAction(m_importFileAction); m_touchBar->addAction(m_newWorksheetAction); m_touchBar->addAction(m_newSpreadsheetAction); } #endif // undo/redo actions are disabled in both cases - when the project is closed or opened m_undoAction->setEnabled(false); m_redoAction->setEnabled(false); } /* * updates the state of actions, menus and toolbars (enabled or disabled) * depending on the currently active window (worksheet or spreadsheet). */ void MainWin::updateGUI() { if (m_project->isLoading()) return; if (m_closing || m_projectClosing) return; KXMLGUIFactory* factory = this->guiFactory(); if (factory->container("worksheet", this) == nullptr) { //no worksheet menu found, most probably labplot2ui.rc //was not properly installed -> return here in order not to crash return; } //reset the touchbar #ifdef Q_OS_MAC m_touchBar->clear(); m_touchBar->addAction(m_undoAction); m_touchBar->addAction(m_redoAction); m_touchBar->addSeparator(); #endif if (!m_mdiArea->currentSubWindow()) { factory->container("spreadsheet", this)->setEnabled(false); factory->container("matrix", this)->setEnabled(false); factory->container("worksheet", this)->setEnabled(false); factory->container("analysis", this)->setEnabled(false); factory->container("datapicker", this)->setEnabled(false); factory->container("spreadsheet_toolbar", this)->hide(); factory->container("worksheet_toolbar", this)->hide(); // factory->container("histogram_toolbar",this)->hide(); // factory->container("barchart_toolbar",this)->hide(); factory->container("cartesian_plot_toolbar", this)->hide(); factory->container("datapicker_toolbar", this)->hide(); #ifdef HAVE_CANTOR_LIBS factory->container("cas_worksheet", this)->setEnabled(false); factory->container("cas_worksheet_toolbar", this)->hide(); #endif return; } #ifdef Q_OS_MAC if (dynamic_cast(m_currentAspect)) { //if (m_currentAspect->type() == AspectType::Folder) { m_touchBar->addAction(m_newWorksheetAction); m_touchBar->addAction(m_newSpreadsheetAction); m_touchBar->addAction(m_newMatrixAction); } #endif //Handle the Worksheet-object const Worksheet* w = dynamic_cast(m_currentAspect); if (!w) w = dynamic_cast(m_currentAspect->parent(AspectType::Worksheet)); if (w) { //populate worksheet menu auto* view = qobject_cast(w->view()); auto* menu = qobject_cast(factory->container("worksheet", this)); menu->clear(); view->createContextMenu(menu); menu->setEnabled(true); //populate analysis menu menu = qobject_cast(factory->container("analysis", this)); menu->clear(); view->createAnalysisMenu(menu); menu->setEnabled(true); //populate worksheet-toolbar auto* toolbar = qobject_cast(factory->container("worksheet_toolbar", this)); toolbar->clear(); view->fillToolBar(toolbar); toolbar->setVisible(true); toolbar->setEnabled(true); //populate the toolbar for cartesian plots toolbar = qobject_cast(factory->container("cartesian_plot_toolbar", this)); toolbar->clear(); view->fillCartesianPlotToolBar(toolbar); toolbar->setVisible(true); toolbar->setEnabled(true); //populate the touchbar on Mac #ifdef Q_OS_MAC view->fillTouchBar(m_touchBar); #endif //hide the spreadsheet toolbar factory->container("spreadsheet_toolbar", this)->setVisible(false); } else { factory->container("worksheet", this)->setEnabled(false); factory->container("worksheet_toolbar", this)->setVisible(false); factory->container("analysis", this)->setEnabled(false); // factory->container("drawing", this)->setEnabled(false); factory->container("worksheet_toolbar", this)->setEnabled(false); factory->container("cartesian_plot_toolbar", this)->setEnabled(false); } //Handle the Spreadsheet-object const auto* spreadsheet = this->activeSpreadsheet(); if (!spreadsheet) spreadsheet = dynamic_cast(m_currentAspect->parent(AspectType::Spreadsheet)); if (spreadsheet) { //populate spreadsheet-menu auto* view = qobject_cast(spreadsheet->view()); auto* menu = qobject_cast(factory->container("spreadsheet", this)); menu->clear(); view->createContextMenu(menu); menu->setEnabled(true); //populate spreadsheet-toolbar auto* toolbar = qobject_cast(factory->container("spreadsheet_toolbar", this)); toolbar->clear(); view->fillToolBar(toolbar); toolbar->setVisible(true); toolbar->setEnabled(true); //populate the touchbar on Mac #ifdef Q_OS_MAC m_touchBar->addAction(m_importFileAction); view->fillTouchBar(m_touchBar); #endif } else { factory->container("spreadsheet", this)->setEnabled(false); factory->container("spreadsheet_toolbar", this)->setVisible(false); } //Handle the Matrix-object const Matrix* matrix = dynamic_cast(m_currentAspect); if (!matrix) matrix = dynamic_cast(m_currentAspect->parent(AspectType::Matrix)); if (matrix) { //populate matrix-menu auto* view = qobject_cast(matrix->view()); auto* menu = qobject_cast(factory->container("matrix", this)); menu->clear(); view->createContextMenu(menu); menu->setEnabled(true); //populate the touchbar on Mac #ifdef Q_OS_MAC m_touchBar->addAction(m_importFileAction); //view->fillTouchBar(m_touchBar); #endif } else factory->container("matrix", this)->setEnabled(false); #ifdef HAVE_CANTOR_LIBS const CantorWorksheet* cantorworksheet = dynamic_cast(m_currentAspect); if (!cantorworksheet) cantorworksheet = dynamic_cast(m_currentAspect->parent(AspectType::CantorWorksheet)); if (cantorworksheet) { auto* view = qobject_cast(cantorworksheet->view()); auto* menu = qobject_cast(factory->container("cas_worksheet", this)); menu->clear(); view->createContextMenu(menu); menu->setEnabled(true); auto* toolbar = qobject_cast(factory->container("cas_worksheet_toolbar", this)); toolbar->setVisible(true); toolbar->clear(); view->fillToolBar(toolbar); } else { //no Cantor worksheet selected -> deactivate Cantor worksheet related menu and toolbar factory->container("cas_worksheet", this)->setEnabled(false); factory->container("cas_worksheet_toolbar", this)->setVisible(false); } #endif const Datapicker* datapicker = dynamic_cast(m_currentAspect); if (!datapicker) datapicker = dynamic_cast(m_currentAspect->parent(AspectType::Datapicker)); if (!datapicker) { if (m_currentAspect->type() == AspectType::DatapickerCurve) datapicker = dynamic_cast(m_currentAspect->parentAspect()); } if (datapicker) { //populate datapicker-menu auto* view = qobject_cast(datapicker->view()); auto* menu = qobject_cast(factory->container("datapicker", this)); menu->clear(); view->createContextMenu(menu); menu->setEnabled(true); //populate spreadsheet-toolbar auto* toolbar = qobject_cast(factory->container("datapicker_toolbar", this)); toolbar->clear(); view->fillToolBar(toolbar); toolbar->setVisible(true); } else { factory->container("datapicker", this)->setEnabled(false); factory->container("datapicker_toolbar", this)->setVisible(false); } } /*! creates a new empty project. Returns \c true, if a new project was created. */ bool MainWin::newProject() { //close the current project, if available if (!closeProject()) return false; QApplication::processEvents(QEventLoop::AllEvents, 100); if (m_project) delete m_project; if (m_aspectTreeModel) delete m_aspectTreeModel; m_project = new Project(); m_currentAspect = m_project; m_currentFolder = m_project; KConfigGroup group = KSharedConfig::openConfig()->group( "Settings_General" ); Project::MdiWindowVisibility vis = Project::MdiWindowVisibility(group.readEntry("MdiWindowVisibility", 0)); m_project->setMdiWindowVisibility( vis ); if (vis == Project::folderOnly) m_visibilityFolderAction->setChecked(true); else if (vis == Project::folderAndSubfolders) m_visibilitySubfolderAction->setChecked(true); else m_visibilityAllAction->setChecked(true); m_aspectTreeModel = new AspectTreeModel(m_project, this); connect(m_aspectTreeModel, &AspectTreeModel::statusInfo, [=](const QString& text){ statusBar()->showMessage(text); }); //newProject is called for the first time, there is no project explorer yet //-> initialize the project explorer, the GUI-observer and the dock widgets. if (m_projectExplorer == nullptr) { m_projectExplorerDock = new QDockWidget(this); m_projectExplorerDock->setObjectName("projectexplorer"); m_projectExplorerDock->setWindowTitle(i18nc("@title:window", "Project Explorer")); addDockWidget(Qt::LeftDockWidgetArea, m_projectExplorerDock); m_projectExplorer = new ProjectExplorer(m_projectExplorerDock); m_projectExplorerDock->setWidget(m_projectExplorer); connect(m_projectExplorer, &ProjectExplorer::currentAspectChanged, this, &MainWin::handleCurrentAspectChanged); connect(m_projectExplorerDock, &QDockWidget::visibilityChanged, this, &MainWin::projectExplorerDockVisibilityChanged); //Properties dock m_propertiesDock = new QDockWidget(this); m_propertiesDock->setObjectName("aspect_properties_dock"); m_propertiesDock->setWindowTitle(i18nc("@title:window", "Properties")); addDockWidget(Qt::RightDockWidgetArea, m_propertiesDock); auto* sa = new QScrollArea(m_propertiesDock); stackedWidget = new QStackedWidget(sa); sa->setWidget(stackedWidget); sa->setWidgetResizable(true); m_propertiesDock->setWidget(sa); connect(m_propertiesDock, &QDockWidget::visibilityChanged, this, &MainWin::propertiesDockVisibilityChanged); //GUI-observer; m_guiObserver = new GuiObserver(this); } m_projectExplorer->setModel(m_aspectTreeModel); m_projectExplorer->setProject(m_project); m_projectExplorer->setCurrentAspect(m_project); m_projectExplorerDock->show(); m_propertiesDock->show(); updateGUIOnProjectChanges(); connect(m_project, &Project::aspectAdded, this, &MainWin::handleAspectAdded); connect(m_project, &Project::aspectRemoved, this, &MainWin::handleAspectRemoved); connect(m_project, &Project::aspectAboutToBeRemoved, this, &MainWin::handleAspectAboutToBeRemoved); connect(m_project, SIGNAL(statusInfo(QString)), statusBar(), SLOT(showMessage(QString))); connect(m_project, &Project::changed, this, &MainWin::projectChanged); connect(m_project, &Project::requestProjectContextMenu, this, &MainWin::createContextMenu); connect(m_project, &Project::requestFolderContextMenu, this, &MainWin::createFolderContextMenu); connect(m_project, &Project::mdiWindowVisibilityChanged, this, &MainWin::updateMdiWindowVisibility); connect(m_project, &Project::closeRequested, this, &MainWin::closeProject); m_undoViewEmptyLabel = i18n("%1: created", m_project->name()); setCaption(m_project->name()); return true; } void MainWin::openProject() { KConfigGroup conf(KSharedConfig::openConfig(), "MainWin"); const QString& dir = conf.readEntry("LastOpenDir", ""); const QString& path = QFileDialog::getOpenFileName(this,i18n("Open Project"), dir, #ifdef HAVE_LIBORIGIN i18n("LabPlot Projects (%1);;Origin Projects (%2)", Project::supportedExtensions(), OriginProjectParser::supportedExtensions()) ); #else i18n("LabPlot Projects (%1)", Project::supportedExtensions()) ); #endif if (path.isEmpty())// "Cancel" was clicked return; this->openProject(path); //save new "last open directory" int pos = path.lastIndexOf(QDir::separator()); if (pos != -1) { const QString& newDir = path.left(pos); if (newDir != dir) conf.writeEntry("LastOpenDir", newDir); } } void MainWin::openProject(const QString& filename) { if (filename == m_currentFileName) { KMessageBox::information(this, i18n("The project file %1 is already opened.", filename), i18n("Open Project")); return; } if (!newProject()) return; WAIT_CURSOR; QElapsedTimer timer; timer.start(); bool rc = false; if (Project::isLabPlotProject(filename)) { m_project->setFileName(filename); rc = m_project->load(filename); #ifdef HAVE_LIBORIGIN } else if (OriginProjectParser::isOriginProject(filename)) { OriginProjectParser parser; parser.setProjectFileName(filename); parser.importTo(m_project, QStringList()); //TODO: add return code rc = true; } #endif if (!rc) { closeProject(); RESET_CURSOR; return; } m_currentFileName = filename; m_project->undoStack()->clear(); m_undoViewEmptyLabel = i18n("%1: opened", m_project->name()); m_recentProjectsAction->addUrl( QUrl(filename) ); setCaption(m_project->name()); updateGUIOnProjectChanges(); updateGUI(); //there are most probably worksheets or spreadsheets in the open project -> update the GUI m_saveAction->setEnabled(false); statusBar()->showMessage( i18n("Project successfully opened (in %1 seconds).", (float)timer.elapsed()/1000) ); if (m_autoSaveActive) m_autoSaveTimer.start(); RESET_CURSOR; } void MainWin::openRecentProject(const QUrl& url) { if (url.isLocalFile()) // fix for Windows this->openProject(url.toLocalFile()); else this->openProject(url.path()); } /*! Closes the current project, if available. Return \c true, if the project was closed. */ bool MainWin::closeProject() { if (m_project == nullptr) return true; //nothing to close if (warnModified()) return false; m_projectClosing = true; statusBar()->clearMessage(); delete m_aspectTreeModel; m_aspectTreeModel = nullptr; delete m_project; m_project = nullptr; m_currentFileName.clear(); m_projectClosing = false; //update the UI if we're just closing a project //and not closing(quitting) the application if (!m_closing) { m_projectExplorerDock->hide(); m_propertiesDock->hide(); m_currentAspect = nullptr; m_currentFolder = nullptr; updateGUIOnProjectChanges(); if (m_autoSaveActive) m_autoSaveTimer.stop(); } removeDockWidget(cursorDock); delete cursorDock; cursorDock = nullptr; cursorWidget = nullptr; // is deleted, because it's the cild of cursorDock return true; } bool MainWin::saveProject() { const QString& fileName = m_project->fileName(); if (fileName.isEmpty()) return saveProjectAs(); else return save(fileName); } bool MainWin::saveProjectAs() { KConfigGroup conf(KSharedConfig::openConfig(), "MainWin"); const QString& dir = conf.readEntry("LastOpenDir", ""); QString path = QFileDialog::getSaveFileName(this, i18n("Save Project As"), dir, i18n("LabPlot Projects (*.lml *.lml.gz *.lml.bz2 *.lml.xz *.LML *.LML.GZ *.LML.BZ2 *.LML.XZ)")); if (path.isEmpty())// "Cancel" was clicked return false; if (path.contains(QLatin1String(".lml"), Qt::CaseInsensitive) == false) path.append(QLatin1String(".lml")); //save new "last open directory" int pos = path.lastIndexOf(QDir::separator()); if (pos != -1) { const QString& newDir = path.left(pos); if (newDir != dir) conf.writeEntry("LastOpenDir", newDir); } return save(path); } /*! * auxiliary function that does the actual saving of the project */ bool MainWin::save(const QString& fileName) { QTemporaryFile tempFile(QDir::tempPath() + "/" + QLatin1String("labplot_save_XXXXXX")); if (!tempFile.open()) { KMessageBox::error(this, i18n("Couldn't open the temporary file for writing.")); return false; } WAIT_CURSOR; const QString& tempFileName = tempFile.fileName(); DEBUG("Using temporary file " << tempFileName.toStdString()) tempFile.close(); // use file ending to find out how to compress file QIODevice* file; // if ending is .lml, do gzip compression anyway if (fileName.endsWith(QLatin1String(".lml"))) file = new KCompressionDevice(tempFileName, KCompressionDevice::GZip); else file = new KFilterDev(tempFileName); if (file == nullptr) file = new QFile(tempFileName); bool ok; if (file->open(QIODevice::WriteOnly)) { m_project->setFileName(fileName); QPixmap thumbnail = centralWidget()->grab(); QXmlStreamWriter writer(file); m_project->setFileName(fileName); m_project->save(thumbnail, &writer); m_project->undoStack()->clear(); m_project->setChanged(false); file->close(); // target file must not exist if (QFile::exists(fileName)) QFile::remove(fileName); // do not rename temp file. Qt still holds a handle (which fails renaming on Windows) and deletes it bool rc = QFile::copy(tempFileName, fileName); if (rc) { setCaption(m_project->name()); statusBar()->showMessage(i18n("Project saved")); m_saveAction->setEnabled(false); m_recentProjectsAction->addUrl( QUrl(fileName) ); ok = true; //if the project dock is visible, refresh the shown content //(version and modification time might have been changed) if (stackedWidget->currentWidget() == projectDock) projectDock->setProject(m_project); //we have a file name now // -> auto save can be activated now if not happened yet if (m_autoSaveActive && !m_autoSaveTimer.isActive()) m_autoSaveTimer.start(); } else { RESET_CURSOR; KMessageBox::error(this, i18n("Couldn't save the file '%1'.", fileName)); ok = false; } } else { RESET_CURSOR; KMessageBox::error(this, i18n("Couldn't open the file '%1' for writing.", fileName)); ok = false; } delete file; RESET_CURSOR; return ok; } /*! * automatically saves the project in the specified time interval. */ void MainWin::autoSaveProject() { //don't auto save when there are no changes or the file name //was not provided yet (the project was never explicitly saved yet). if ( !m_project->hasChanged() || m_project->fileName().isEmpty()) return; this->saveProject(); } /*! prints the current sheet (worksheet, spreadsheet or matrix) */ void MainWin::print() { QMdiSubWindow* win = m_mdiArea->currentSubWindow(); if (!win) return; AbstractPart* part = dynamic_cast(win)->part(); statusBar()->showMessage(i18n("Preparing printing of %1", part->name())); if (part->printView()) statusBar()->showMessage(i18n("%1 printed", part->name())); else statusBar()->clearMessage(); } void MainWin::printPreview() { QMdiSubWindow* win = m_mdiArea->currentSubWindow(); if (!win) return; AbstractPart* part = dynamic_cast(win)->part(); statusBar()->showMessage(i18n("Preparing printing of %1", part->name())); if (part->printPreview()) statusBar()->showMessage(i18n("%1 printed", part->name())); else statusBar()->clearMessage(); } /**************************************************************************************/ /*! adds a new Folder to the project. */ void MainWin::newFolder() { Folder* folder = new Folder(i18n("Folder")); this->addAspectToProject(folder); } /*! adds a new Workbook to the project. */ void MainWin::newWorkbook() { Workbook* workbook = new Workbook(i18n("Workbook")); this->addAspectToProject(workbook); } /*! adds a new Datapicker to the project. */ void MainWin::newDatapicker() { Datapicker* datapicker = new Datapicker(i18n("Datapicker")); this->addAspectToProject(datapicker); } /*! adds a new Spreadsheet to the project. */ void MainWin::newSpreadsheet() { Spreadsheet* spreadsheet = new Spreadsheet(i18n("Spreadsheet")); //if the current active window is a workbook and no folder/project is selected in the project explorer, //add the new spreadsheet to the workbook Workbook* workbook = dynamic_cast(m_currentAspect); if (workbook) { QModelIndex index = m_projectExplorer->currentIndex(); const auto* aspect = static_cast(index.internalPointer()); if (!aspect->inherits(AspectType::Folder)) { workbook->addChild(spreadsheet); return; } } this->addAspectToProject(spreadsheet); } /*! adds a new Matrix to the project. */ void MainWin::newMatrix() { Matrix* matrix = new Matrix(i18n("Matrix")); //if the current active window is a workbook and no folder/project is selected in the project explorer, //add the new matrix to the workbook Workbook* workbook = dynamic_cast(m_currentAspect); if (workbook) { QModelIndex index = m_projectExplorer->currentIndex(); const auto* aspect = static_cast(index.internalPointer()); if (!aspect->inherits(AspectType::Folder)) { workbook->addChild(matrix); return; } } this->addAspectToProject(matrix); } /*! adds a new Worksheet to the project. */ void MainWin::newWorksheet() { Worksheet* worksheet = new Worksheet(i18n("Worksheet")); this->addAspectToProject(worksheet); } /*! adds a new Note to the project. */ void MainWin::newNotes() { Note* notes = new Note(i18n("Note")); this->addAspectToProject(notes); } /*! returns a pointer to a \c Spreadsheet object, if the currently active Mdi-Subwindow or if the currently selected tab in a \c WorkbookView is a \c SpreadsheetView Otherwise returns \c 0. */ Spreadsheet* MainWin::activeSpreadsheet() const { if (!m_currentAspect) return nullptr; Spreadsheet* spreadsheet = nullptr; if (m_currentAspect->type() == AspectType::Spreadsheet) spreadsheet = dynamic_cast(m_currentAspect); else { //check whether one of spreadsheet columns is selected and determine the spreadsheet auto* parent = m_currentAspect->parentAspect(); if (parent && parent->type() == AspectType::Spreadsheet) spreadsheet = dynamic_cast(parent); } return spreadsheet; } #ifdef HAVE_CANTOR_LIBS /* adds a new Cantor Spreadsheet to the project. */ void MainWin::newCantorWorksheet(QAction* action) { CantorWorksheet* cantorworksheet = new CantorWorksheet(action->data().toString()); this->addAspectToProject(cantorworksheet); } /********************************************************************************/ #endif /*! called if there were changes in the project. Adds "changed" to the window caption and activates the save-Action. */ void MainWin::projectChanged() { setCaption(i18n("%1 [Changed]", m_project->name())); m_saveAction->setEnabled(true); m_undoAction->setEnabled(true); return; } void MainWin::handleCurrentSubWindowChanged(QMdiSubWindow* win) { if (!win) return; auto* view = qobject_cast(win); if (!view) { updateGUI(); return; } if (view == m_currentSubWindow) { //do nothing, if the current sub-window gets selected again. //This event happens, when labplot loses the focus (modal window is opened or the user switches to another application) //and gets it back (modal window is closed or the user switches back to labplot). return; } else m_currentSubWindow = view; updateGUI(); if (!m_suppressCurrentSubWindowChangedEvent) m_projectExplorer->setCurrentAspect(view->part()); } void MainWin::handleAspectAdded(const AbstractAspect* aspect) { const auto* part = dynamic_cast(aspect); if (part) { // connect(part, &AbstractPart::importFromFileRequested, this, &MainWin::importFileDialog); connect(part, &AbstractPart::importFromFileRequested, this, [=]() {importFileDialog();}); connect(part, &AbstractPart::importFromSQLDatabaseRequested, this, &MainWin::importSqlDialog); //TODO: export, print and print preview should be handled in the views and not in MainWin. connect(part, &AbstractPart::exportRequested, this, &MainWin::exportDialog); connect(part, &AbstractPart::printRequested, this, &MainWin::print); connect(part, &AbstractPart::printPreviewRequested, this, &MainWin::printPreview); connect(part, &AbstractPart::showRequested, this, &MainWin::handleShowSubWindowRequested); const auto* worksheet = dynamic_cast(aspect); if (worksheet) connect(worksheet, &Worksheet::cartesianPlotMouseModeChanged, this, &MainWin::cartesianPlotMouseModeChanged); } } // void MainWin::cartesianPlotMouseModeChanged(CartesianPlot::MouseMode void MainWin::handleAspectRemoved(const AbstractAspect* parent,const AbstractAspect* before,const AbstractAspect* aspect) { Q_UNUSED(before); Q_UNUSED(aspect); //no need to react on AbstractSimpleFilter if (!dynamic_cast(aspect)) m_projectExplorer->setCurrentAspect(parent); } void MainWin::handleAspectAboutToBeRemoved(const AbstractAspect *aspect) { const auto* part = qobject_cast(aspect); if (!part) return; const auto* workbook = dynamic_cast(aspect->parentAspect()); auto* datapicker = dynamic_cast(aspect->parentAspect()); if (!datapicker) datapicker = dynamic_cast(aspect->parentAspect()->parentAspect()); if (!workbook && !datapicker) { PartMdiView* win = part->mdiSubWindow(); if (win) m_mdiArea->removeSubWindow(win); } } /*! called when the current aspect in the tree of the project explorer was changed. Selects the new aspect. */ void MainWin::handleCurrentAspectChanged(AbstractAspect *aspect) { if (!aspect) aspect = m_project; // should never happen, just in case m_suppressCurrentSubWindowChangedEvent = true; if (aspect->folder() != m_currentFolder) { m_currentFolder = aspect->folder(); updateMdiWindowVisibility(); } m_currentAspect = aspect; //activate the corresponding MDI sub window for the current aspect activateSubWindowForAspect(aspect); m_suppressCurrentSubWindowChangedEvent = false; updateGUI(); } void MainWin::activateSubWindowForAspect(const AbstractAspect* aspect) const { const auto* part = dynamic_cast(aspect); if (part) { //for LiveDataSource we currently don't show any view /*if (dynamic_cast(part)) return;*/ PartMdiView* win; //for aspects being children of a Workbook, we show workbook's window, otherwise the window of the selected part const auto* workbook = dynamic_cast(aspect->parentAspect()); auto* datapicker = dynamic_cast(aspect->parentAspect()); if (!datapicker) datapicker = dynamic_cast(aspect->parentAspect()->parentAspect()); if (workbook) win = workbook->mdiSubWindow(); else if (datapicker) win = datapicker->mdiSubWindow(); else win = part->mdiSubWindow(); if (m_mdiArea->subWindowList().indexOf(win) == -1) { if (dynamic_cast(part)) m_mdiArea->addSubWindow(win, Qt::Tool); else m_mdiArea->addSubWindow(win); win->show(); //Qt provides its own "system menu" for every sub-window. The shortcut for the close-action //in this menu collides with our global m_closeAction. //remove the shortcuts in the system menu to avoid this collision. QMenu* menu = win->systemMenu(); if (menu) { for (QAction* action : menu->actions()) action->setShortcut(QKeySequence()); } } m_mdiArea->setActiveSubWindow(win); } else { //activate the mdiView of the parent, if a child was selected const AbstractAspect* parent = aspect->parentAspect(); if (parent) { activateSubWindowForAspect(parent); //if the parent's parent is a Workbook (a column of a spreadsheet in workbook was selected), //we need to select the corresponding tab in WorkbookView too if (parent->parentAspect()) { auto* workbook = dynamic_cast(parent->parentAspect()); auto* datapicker = dynamic_cast(parent->parentAspect()); if (!datapicker) datapicker = dynamic_cast(parent->parentAspect()->parentAspect()); if (workbook) workbook->childSelected(parent); else if (datapicker) datapicker->childSelected(parent); } } } return; } void MainWin::setMdiWindowVisibility(QAction* action) { m_project->setMdiWindowVisibility((Project::MdiWindowVisibility)(action->data().toInt())); } /*! shows the sub window of a worksheet, matrix or a spreadsheet. Used if the window was closed before and the user asks to show the window again via the context menu in the project explorer. */ void MainWin::handleShowSubWindowRequested() { activateSubWindowForAspect(m_currentAspect); } /*! this is called on a right click on the root folder in the project explorer */ void MainWin::createContextMenu(QMenu* menu) const { QAction* firstAction = nullptr; // if we're populating the context menu for the project explorer, then //there're already actions available there. Skip the first title-action //and insert the action at the beginning of the menu. if (menu->actions().size()>1) firstAction = menu->actions().at(1); menu->insertMenu(firstAction, m_newMenu); //The tabbed view collides with the visibility policy for the subwindows. //Hide the menus for the visibility policy if the tabbed view is used. if (m_mdiArea->viewMode() != QMdiArea::TabbedView) { menu->insertSeparator(firstAction); menu->insertMenu(firstAction, m_visibilityMenu); menu->insertSeparator(firstAction); } } /*! this is called on a right click on a non-root folder in the project explorer */ void MainWin::createFolderContextMenu(const Folder* folder, QMenu* menu) const { Q_UNUSED(folder); //Folder provides it's own context menu. Add a separator before adding additional actions. menu->addSeparator(); this->createContextMenu(menu); } void MainWin::undo() { WAIT_CURSOR; m_project->undoStack()->undo(); if (m_project->undoStack()->index() == 0) { setCaption(m_project->name()); m_saveAction->setEnabled(false); m_undoAction->setEnabled(false); m_project->setChanged(false); } m_redoAction->setEnabled(true); RESET_CURSOR; } void MainWin::redo() { WAIT_CURSOR; m_project->undoStack()->redo(); projectChanged(); if (m_project->undoStack()->index() == m_project->undoStack()->count()) m_redoAction->setEnabled(false); RESET_CURSOR; } /*! Shows/hides mdi sub-windows depending on the current visibility policy. */ void MainWin::updateMdiWindowVisibility() const { QList windows = m_mdiArea->subWindowList(); PartMdiView* part_view; switch (m_project->mdiWindowVisibility()) { case Project::allMdiWindows: for (auto* window : windows) window->show(); break; case Project::folderOnly: for (auto* window : windows) { part_view = qobject_cast(window); Q_ASSERT(part_view); if (part_view->part()->folder() == m_currentFolder) part_view->show(); else part_view->hide(); } break; case Project::folderAndSubfolders: for (auto* window : windows) { part_view = qobject_cast(window); if (part_view->part()->isDescendantOf(m_currentFolder)) part_view->show(); else part_view->hide(); } break; } } void MainWin::toggleDockWidget(QAction* action) { if (action->objectName() == "toggle_project_explorer_dock") { if (m_projectExplorerDock->isVisible()) m_projectExplorerDock->hide(); // toggleHideWidget(m_projectExplorerDock, true); else m_projectExplorerDock->show(); // toggleShowWidget(m_projectExplorerDock, true); } else if (action->objectName() == "toggle_properties_explorer_dock") { if (m_propertiesDock->isVisible()) m_propertiesDock->hide(); // toggleHideWidget(m_propertiesDock, false); else m_propertiesDock->show(); // toggleShowWidget(m_propertiesDock, false); } } /* void MainWin::toggleHideWidget(QWidget* widget, bool hideToLeft) { auto* timeline = new QTimeLine(800, this); timeline->setEasingCurve(QEasingCurve::InOutQuad); connect(timeline, &QTimeLine::valueChanged, [=] { const qreal value = timeline->currentValue(); const int widgetWidth = widget->width(); const int widgetPosY = widget->pos().y(); int moveX = 0; if (hideToLeft) { moveX = static_cast(value * widgetWidth) - widgetWidth; } else { const int frameRight = this->frameGeometry().right(); moveX = frameRight - static_cast(value * widgetWidth); } widget->move(moveX, widgetPosY); }); timeline->setDirection(QTimeLine::Backward); timeline->start(); connect(timeline, &QTimeLine::finished, [widget] {widget->hide();}); connect(timeline, &QTimeLine::finished, timeline, &QTimeLine::deleteLater); } void MainWin::toggleShowWidget(QWidget* widget, bool showToRight) { auto* timeline = new QTimeLine(800, this); timeline->setEasingCurve(QEasingCurve::InOutQuad); connect(timeline, &QTimeLine::valueChanged, [=]() { if (widget->isHidden()) { widget->show(); } const qreal value = timeline->currentValue(); const int widgetWidth = widget->width(); const int widgetPosY = widget->pos().y(); int moveX = 0; if (showToRight) { moveX = static_cast(value * widgetWidth) - widgetWidth; } else { const int frameRight = this->frameGeometry().right(); moveX = frameRight - static_cast(value * widgetWidth); } widget->move(moveX, widgetPosY); }); timeline->setDirection(QTimeLine::Forward); timeline->start(); connect(timeline, &QTimeLine::finished, timeline, &QTimeLine::deleteLater); } */ void MainWin::projectExplorerDockVisibilityChanged(bool visible) { m_toggleProjectExplorerDockAction->setChecked(visible); } void MainWin::propertiesDockVisibilityChanged(bool visible) { m_togglePropertiesDockAction->setChecked(visible); } void MainWin::cursorDockVisibilityChanged(bool visible) { //if the cursor dock was closed, switch to the "Select and Edit" mouse mode if (!visible) { // auto* worksheet = activeWorksheet(); //TODO: } } void MainWin::cartesianPlotMouseModeChanged(CartesianPlot::MouseMode mode) { if (mode != CartesianPlot::Cursor) { if (cursorDock) cursorDock->hide(); } else { if (!cursorDock) { cursorDock = new QDockWidget(i18n("Cursor"), this); cursorWidget = new CursorDock(cursorDock); cursorDock->setWidget(cursorWidget); connect(cursorDock, &QDockWidget::visibilityChanged, this, &MainWin::cursorDockVisibilityChanged); // cursorDock->setFloating(true); // does not work. Don't understand why // if (m_propertiesDock) // tabifyDockWidget(cursorDock, m_propertiesDock); // else addDockWidget(Qt::DockWidgetArea::RightDockWidgetArea, cursorDock); } auto* worksheet = static_cast(QObject::sender()); cursorWidget->setWorksheet(worksheet); cursorDock->show(); } } void MainWin::toggleFullScreen() { if (this->windowState() == Qt::WindowFullScreen) this->setWindowState(m_lastWindowState); else { m_lastWindowState = this->windowState(); this->showFullScreen(); } } void MainWin::closeEvent(QCloseEvent* event) { m_closing = true; if (!this->closeProject()) { m_closing = false; event->ignore(); } } void MainWin::dragEnterEvent(QDragEnterEvent* event) { event->accept(); } void MainWin::dropEvent(QDropEvent* event) { if (event->mimeData() && !event->mimeData()->urls().isEmpty()) { QUrl url = event->mimeData()->urls().at(0); const QString& f = url.toLocalFile(); #ifdef HAVE_LIBORIGIN if (Project::isLabPlotProject(f) || OriginProjectParser::isOriginProject(f)) #else if (Project::isLabPlotProject(f)) #endif openProject(f); else { if (!m_project) newProject(); importFileDialog(f); } event->accept(); } else event->ignore(); } void MainWin::handleSettingsChanges() { const KConfigGroup group = KSharedConfig::openConfig()->group( "Settings_General" ); QMdiArea::ViewMode viewMode = QMdiArea::ViewMode(group.readEntry("ViewMode", 0)); if (m_mdiArea->viewMode() != viewMode) { m_mdiArea->setViewMode(viewMode); if (viewMode == QMdiArea::SubWindowView) this->updateMdiWindowVisibility(); } if (m_mdiArea->viewMode() == QMdiArea::TabbedView) { m_tileWindows->setVisible(false); m_cascadeWindows->setVisible(false); QTabWidget::TabPosition tabPosition = QTabWidget::TabPosition(group.readEntry("TabPosition", 0)); if (m_mdiArea->tabPosition() != tabPosition) m_mdiArea->setTabPosition(tabPosition); } else { m_tileWindows->setVisible(true); m_cascadeWindows->setVisible(true); } //autosave bool autoSave = group.readEntry("AutoSave", 0); if (m_autoSaveActive != autoSave) { m_autoSaveActive = autoSave; if (autoSave) m_autoSaveTimer.start(); else m_autoSaveTimer.stop(); } int interval = group.readEntry("AutoSaveInterval", 1); interval *= 60*1000; if (interval != m_autoSaveTimer.interval()) m_autoSaveTimer.setInterval(interval); //show memory info bool showMemoryInfo = group.readEntry(QLatin1String("ShowMemoryInfo"), true); if (m_showMemoryInfo != showMemoryInfo) { m_showMemoryInfo = showMemoryInfo; if (showMemoryInfo) { m_memoryInfoWidget = new MemoryWidget(statusBar()); statusBar()->addPermanentWidget(m_memoryInfoWidget); } else { if (m_memoryInfoWidget) { statusBar()->removeWidget(m_memoryInfoWidget); delete m_memoryInfoWidget; m_memoryInfoWidget = nullptr; } } } } /***************************************************************************************/ /************************************** dialogs ***************************************/ /***************************************************************************************/ /*! shows the dialog with the Undo-history. */ void MainWin::historyDialog() { if (!m_project->undoStack()) return; auto* dialog = new HistoryDialog(this, m_project->undoStack(), m_undoViewEmptyLabel); int index = m_project->undoStack()->index(); if (dialog->exec() != QDialog::Accepted) { if (m_project->undoStack()->count() != 0) m_project->undoStack()->setIndex(index); } //disable undo/redo-actions if the history was cleared //(in both cases, when accepted or rejected in the dialog) if (m_project->undoStack()->count() == 0) { m_undoAction->setEnabled(false); m_redoAction->setEnabled(false); } } /*! Opens the dialog to import data to the selected workbook, spreadsheet or matrix */ void MainWin::importFileDialog(const QString& fileName) { DEBUG("MainWin::importFileDialog()"); auto* dlg = new ImportFileDialog(this, false, fileName); // select existing container if (m_currentAspect->type() == AspectType::Spreadsheet || m_currentAspect->type() == AspectType::Matrix || m_currentAspect->type() == AspectType::Workbook) dlg->setCurrentIndex(m_projectExplorer->currentIndex()); else if (m_currentAspect->type() == AspectType::Column && m_currentAspect->parentAspect()->type() == AspectType::Spreadsheet) dlg->setCurrentIndex(m_aspectTreeModel->modelIndexOfAspect(m_currentAspect->parentAspect())); if (dlg->exec() == QDialog::Accepted) { dlg->importTo(statusBar()); m_project->setChanged(true); } delete dlg; DEBUG("MainWin::importFileDialog() DONE"); } void MainWin::importSqlDialog() { DEBUG("MainWin::importSqlDialog()"); auto* dlg = new ImportSQLDatabaseDialog(this); // select existing container if (m_currentAspect->type() == AspectType::Spreadsheet || m_currentAspect->type() == AspectType::Matrix || m_currentAspect->type() == AspectType::Workbook) dlg->setCurrentIndex(m_projectExplorer->currentIndex()); else if (m_currentAspect->type() == AspectType::Column && m_currentAspect->parentAspect()->type() == AspectType::Spreadsheet) dlg->setCurrentIndex(m_aspectTreeModel->modelIndexOfAspect(m_currentAspect->parentAspect())); if (dlg->exec() == QDialog::Accepted) { dlg->importTo(statusBar()); m_project->setChanged(true); } delete dlg; DEBUG("MainWin::importSqlDialog() DONE"); } void MainWin::importProjectDialog() { DEBUG("MainWin::importProjectDialog()"); ImportProjectDialog::ProjectType type; if (QObject::sender() == m_importOpjAction) type = ImportProjectDialog::ProjectOrigin; else type = ImportProjectDialog::ProjectLabPlot; auto* dlg = new ImportProjectDialog(this, type); // set current folder dlg->setCurrentFolder(m_currentFolder); if (dlg->exec() == QDialog::Accepted) { dlg->importTo(statusBar()); m_project->setChanged(true); } delete dlg; DEBUG("MainWin::importProjectDialog() DONE"); } /*! opens the dialog for the export of the currently active worksheet, spreadsheet or matrix. */ void MainWin::exportDialog() { QMdiSubWindow* win = m_mdiArea->currentSubWindow(); if (!win) return; AbstractPart* part = dynamic_cast(win)->part(); if (part->exportView()) statusBar()->showMessage(i18n("%1 exported", part->name())); } void MainWin::editFitsFileDialog() { auto* editDialog = new FITSHeaderEditDialog(this); if (editDialog->exec() == QDialog::Accepted) { if (editDialog->saved()) statusBar()->showMessage(i18n("FITS files saved")); } } /*! adds a new file data source to the current project. */ void MainWin::newLiveDataSourceActionTriggered() { ImportFileDialog* dlg = new ImportFileDialog(this, true); if (dlg->exec() == QDialog::Accepted) { if (static_cast(dlg->sourceType()) == LiveDataSource::MQTT) { #ifdef HAVE_MQTT MQTTClient* mqttClient = new MQTTClient(i18n("MQTT Client%1", 1)); dlg->importToMQTT(mqttClient); mqttClient->setName(mqttClient->clientHostName()); QVector existingClients = m_project->children(AbstractAspect::Recursive); //doesn't make sense to have more MQTTClients connected to the same broker bool found = false; for (const auto* client : existingClients) { if (client->clientHostName() == mqttClient->clientHostName() && client->clientPort() == mqttClient->clientPort()) { found = true; break; } } if (!found) addAspectToProject(mqttClient); else { delete mqttClient; QMessageBox::warning(this, "Warning", "There already is a MQTTClient with this host!"); } #endif } else { LiveDataSource* dataSource = new LiveDataSource(i18n("Live data source%1", 1), false); dlg->importToLiveDataSource(dataSource, statusBar()); addAspectToProject(dataSource); } } delete dlg; } void MainWin::addAspectToProject(AbstractAspect* aspect) { const QModelIndex& index = m_projectExplorer->currentIndex(); if (index.isValid()) { auto* parent = static_cast(index.internalPointer()); #ifdef HAVE_MQTT //doesn't make sense to add a new MQTTClient to an existing MQTTClient or to any of its successors QString className = parent->metaObject()->className(); MQTTClient* clientAncestor = parent->ancestor(); if (className == "MQTTClient") parent = parent->parentAspect(); else if (clientAncestor != nullptr) parent = clientAncestor->parentAspect(); #endif parent->folder()->addChild(aspect); } else m_project->addChild(aspect); } void MainWin::settingsDialog() { auto* dlg = new SettingsDialog(this); connect (dlg, &SettingsDialog::settingsChanged, this, &MainWin::handleSettingsChanges); dlg->exec(); } #ifdef HAVE_CANTOR_LIBS void MainWin::cantorSettingsDialog() { static KCoreConfigSkeleton* emptyConfig = new KCoreConfigSkeleton(); KConfigDialog *cantorDialog = new KConfigDialog(this, QLatin1String("Cantor Settings"), emptyConfig); for (auto* backend : Cantor::Backend::availableBackends()) if (backend->config()) //It has something to configure, so add it to the dialog cantorDialog->addPage(backend->settingsWidget(cantorDialog), backend->config(), backend->name(), backend->icon()); cantorDialog->show(); } #endif diff --git a/src/kdefrontend/MainWin.h b/src/kdefrontend/MainWin.h index 89d5d2297..d36485b14 100644 --- a/src/kdefrontend/MainWin.h +++ b/src/kdefrontend/MainWin.h @@ -1,325 +1,327 @@ /*************************************************************************** File : MainWin.h Project : LabPlot -------------------------------------------------------------------- Copyright : (C) 2011-2018 Alexander Semke (alexander.semke@web.de) Copyright : (C) 2008-2018 by Stefan Gerlach (stefan.gerlach@uni.kn) Description : Main window of the application ***************************************************************************/ /*************************************************************************** * * * 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 * * * ***************************************************************************/ #ifndef MAINWIN_H #define MAINWIN_H #include "backend/worksheet/plots/cartesian/CartesianPlot.h" #include #include class AbstractAspect; class AspectTreeModel; class Folder; class ProjectExplorer; class Project; class Worksheet; class Note; class Workbook; class Datapicker; class Spreadsheet; class Matrix; class GuiObserver; class AxisDock; class CursorDock; class NoteDock; class CartesianPlotDock; class HistogramDock; class BarChartPlotDock; class CartesianPlotLegendDock; class CustomPointDock; +class ReferenceLineDock; class ColumnDock; class LiveDataDock; class MatrixDock; class ProjectDock; class SpreadsheetDock; class XYCurveDock; class XYEquationCurveDock; class XYDataReductionCurveDock; class XYDifferentiationCurveDock; class XYIntegrationCurveDock; class XYInterpolationCurveDock; class XYSmoothCurveDock; class XYFitCurveDock; class XYFourierFilterCurveDock; class XYFourierTransformCurveDock; class XYConvolutionCurveDock; class XYCorrelationCurveDock; class WorksheetDock; class ImageDock; class LabelWidget; class DatapickerImageWidget; class DatapickerCurveWidget; class MemoryWidget; class CartesianPlot; #ifdef HAVE_CANTOR_LIBS class CantorWorksheet; class CantorWorksheetDock; #endif class QDockWidget; class QStackedWidget; class QDragEnterEvent; class QDropEvent; class QMdiArea; class QMdiSubWindow; class QToolButton; class KRecentFilesAction; class TreeModel; #ifdef Q_OS_MAC class KDMacTouchBar; #endif class MainWin : public KXmlGuiWindow { Q_OBJECT public: explicit MainWin(QWidget* parent = nullptr, const QString& filename = nullptr); ~MainWin() override; void showPresenter(); AspectTreeModel* model() const; Project* project() const; void addAspectToProject(AbstractAspect*); private: QMdiArea* m_mdiArea; QMdiSubWindow* m_currentSubWindow{nullptr}; Project* m_project{nullptr}; AspectTreeModel* m_aspectTreeModel{nullptr}; ProjectExplorer* m_projectExplorer{nullptr}; QDockWidget* m_projectExplorerDock{nullptr}; QDockWidget* m_propertiesDock{nullptr}; AbstractAspect* m_currentAspect{nullptr}; Folder* m_currentFolder{nullptr}; QString m_currentFileName; QString m_undoViewEmptyLabel; bool m_suppressCurrentSubWindowChangedEvent{false}; bool m_closing{false}; bool m_projectClosing{false}; bool m_autoSaveActive{false}; QTimer m_autoSaveTimer; bool m_showMemoryInfo{true}; MemoryWidget* m_memoryInfoWidget{nullptr}; Qt::WindowStates m_lastWindowState; //< last window state before switching to full screen mode #ifdef Q_OS_MAC KDMacTouchBar* m_touchBar; #endif KRecentFilesAction* m_recentProjectsAction; QAction* m_saveAction; QAction* m_saveAsAction; QAction* m_printAction; QAction* m_printPreviewAction; QAction* m_importFileAction; QAction* m_importSqlAction; QAction* m_importLabPlotAction; QAction* m_importOpjAction; QAction* m_exportAction; QAction* m_closeAction; QAction* m_newFolderAction; QAction* m_newWorkbookAction; QAction* m_newSpreadsheetAction; QAction* m_newMatrixAction; QAction* m_newWorksheetAction; QAction* m_newNotesAction; QAction* m_newLiveDataSourceAction; QAction* m_newSqlDataSourceAction; QAction* m_newScriptAction; QAction* m_newProjectAction; QAction* m_openProjectAction; QAction* m_historyAction; QAction* m_undoAction; QAction* m_redoAction; QAction* m_tileWindows; QAction* m_cascadeWindows; QAction* m_newDatapickerAction; QAction* m_editFitsFileAction; //toggling doch widgets QAction* m_toggleProjectExplorerDocQAction; QAction* m_togglePropertiesDocQAction; //worksheet actions QAction* worksheetZoomInAction; QAction* worksheetZoomOutAction; QAction* worksheetZoomOriginAction; QAction* worksheetZoomFitPageHeightAction; QAction* worksheetZoomFitPageWidthAction; QAction* worksheetZoomFitSelectionAction; QAction* worksheetNavigationModeAction; QAction* worksheetZoomModeAction; QAction* worksheetSelectionModeAction; QAction* worksheetVerticalLayoutAction; QAction* worksheetHorizontalLayoutAction; QAction* worksheetGridLayoutAction; QAction* worksheetBreakLayoutAction; QAction* m_visibilityFolderAction; QAction* m_visibilitySubfolderAction; QAction* m_visibilityAllAction; QAction* m_toggleProjectExplorerDockAction; QAction* m_togglePropertiesDockAction; //Menus QMenu* m_visibilityMenu{nullptr}; QMenu* m_newMenu{nullptr}; QMenu* m_importMenu; QMenu* m_editMenu{nullptr}; //Docks QStackedWidget* stackedWidget; AxisDock* axisDock{nullptr}; QDockWidget* cursorDock{nullptr}; CursorDock* cursorWidget{nullptr}; NoteDock* notesDock{nullptr}; CartesianPlotDock* cartesianPlotDock{nullptr}; CartesianPlotLegendDock* cartesianPlotLegendDock{nullptr}; ColumnDock* columnDock{nullptr}; LiveDataDock* m_liveDataDock{nullptr}; MatrixDock* matrixDock{nullptr}; SpreadsheetDock* spreadsheetDock{nullptr}; ProjectDock* projectDock{nullptr}; XYCurveDock* xyCurveDock{nullptr}; XYEquationCurveDock* xyEquationCurveDock{nullptr}; XYDataReductionCurveDock* xyDataReductionCurveDock{nullptr}; XYDifferentiationCurveDock* xyDifferentiationCurveDock{nullptr}; XYIntegrationCurveDock* xyIntegrationCurveDock{nullptr}; XYInterpolationCurveDock* xyInterpolationCurveDock{nullptr}; XYSmoothCurveDock* xySmoothCurveDock{nullptr}; XYFitCurveDock* xyFitCurveDock{nullptr}; XYFourierFilterCurveDock* xyFourierFilterCurveDock{nullptr}; XYFourierTransformCurveDock* xyFourierTransformCurveDock{nullptr}; XYConvolutionCurveDock* xyConvolutionCurveDock{nullptr}; XYCorrelationCurveDock* xyCorrelationCurveDock{nullptr}; HistogramDock* histogramDock{nullptr}; WorksheetDock* worksheetDock{nullptr}; LabelWidget* textLabelDock{nullptr}; ImageDock* imageDock{nullptr}; CustomPointDock* customPointDock{nullptr}; + ReferenceLineDock* referenceLineDock{nullptr}; DatapickerImageWidget* datapickerImageDock{nullptr}; DatapickerCurveWidget* datapickerCurveDock{nullptr}; void initActions(); void initMenus(); bool warnModified(); void activateSubWindowForAspect(const AbstractAspect*) const; bool save(const QString&); // void toggleShowWidget(QWidget* widget, bool showToRight); // void toggleHideWidget(QWidget* widget, bool hideToLeft); Spreadsheet* activeSpreadsheet() const; //Cantor #ifdef HAVE_CANTOR_LIBS QMenu* m_newCantorWorksheetMenu; CantorWorksheetDock* cantorWorksheetDock{nullptr}; #endif friend class GuiObserver; GuiObserver* m_guiObserver{nullptr}; protected: void closeEvent(QCloseEvent*) override; void dragEnterEvent(QDragEnterEvent*) override; void dropEvent(QDropEvent*) override; private slots: void initGUI(const QString&); void updateGUI(); void updateGUIOnProjectChanges(); void undo(); void redo(); bool newProject(); void openProject(); void openProject(const QString&); void openRecentProject(const QUrl&); bool closeProject(); bool saveProject(); bool saveProjectAs(); void autoSaveProject(); void print(); void printPreview(); void historyDialog(); void importFileDialog(const QString& fileName = QString()); void importSqlDialog(); void importProjectDialog(); void exportDialog(); void editFitsFileDialog(); void settingsDialog(); void projectChanged(); void colorSchemeChanged(QAction*); //Cantor #ifdef HAVE_CANTOR_LIBS void newCantorWorksheet(QAction* action); void cantorSettingsDialog(); #endif void newFolder(); void newWorkbook(); void newSpreadsheet(); void newMatrix(); void newWorksheet(); void newNotes(); void newDatapicker(); //TODO: void newScript(); void newLiveDataSourceActionTriggered(); void createContextMenu(QMenu*) const; void createFolderContextMenu(const Folder*, QMenu*) const; void handleAspectAdded(const AbstractAspect*); void handleAspectAboutToBeRemoved(const AbstractAspect*); void handleAspectRemoved(const AbstractAspect*,const AbstractAspect*,const AbstractAspect*); void handleCurrentAspectChanged(AbstractAspect* ); void handleCurrentSubWindowChanged(QMdiSubWindow*); void handleShowSubWindowRequested(); void handleSettingsChanges(); void setMdiWindowVisibility(QAction*); void updateMdiWindowVisibility() const; void toggleDockWidget(QAction*); void toggleFullScreen(); void projectExplorerDockVisibilityChanged(bool); void propertiesDockVisibilityChanged(bool); void cursorDockVisibilityChanged(bool); void cartesianPlotMouseModeChanged(CartesianPlot::MouseMode); }; #endif diff --git a/src/kdefrontend/dockwidgets/ReferenceLineDock.cpp b/src/kdefrontend/dockwidgets/ReferenceLineDock.cpp new file mode 100644 index 000000000..1f48e33e4 --- /dev/null +++ b/src/kdefrontend/dockwidgets/ReferenceLineDock.cpp @@ -0,0 +1,260 @@ +/*************************************************************************** + File : ReferenceLineDock.cpp + Project : LabPlot + Description : Dock widget for the reference line on the plot + -------------------------------------------------------------------- + Copyright : (C) 2020 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 "ReferenceLineDock.h" +#include "backend/worksheet/Worksheet.h" +#include "backend/worksheet/plots/cartesian/ReferenceLine.h" + +#include "kdefrontend/TemplateHandler.h" +#include "kdefrontend/GuiTools.h" + +#include +#include +#include + +ReferenceLineDock::ReferenceLineDock(QWidget* parent) : BaseDock(parent) { + ui.setupUi(this); + m_leName = ui.leName; + m_leComment = ui.leComment; + + ui.cbOrientation->addItem(i18n("Horizontal")); + ui.cbOrientation->addItem(i18n("Vertical")); + + ui.lePosition->setValidator( new QDoubleValidator(ui.lePosition) ); + + //SLOTS + //General + connect(ui.leName, &QLineEdit::textChanged, this, &ReferenceLineDock::nameChanged); + connect(ui.leComment, &QLineEdit::textChanged, this, &ReferenceLineDock::commentChanged); + + connect(ui.cbOrientation, SIGNAL(currentIndexChanged(int)), this, SLOT(orientationChanged(int)) ); + connect(ui.lePosition, &QLineEdit::returnPressed, this, &ReferenceLineDock::positionChanged); + connect(ui.chkVisible, SIGNAL(clicked(bool)), this, SLOT(visibilityChanged(bool))); + + connect(ui.cbLineStyle, SIGNAL(currentIndexChanged(int)), this, SLOT(styleChanged(int)) ); + connect(ui.kcbLineColor, SIGNAL(changed(QColor)), this, SLOT(colorChanged(QColor)) ); + connect(ui.sbLineWidth, SIGNAL(valueChanged(double)), this, SLOT(widthChanged(double)) ); + connect(ui.sbLineOpacity, SIGNAL(valueChanged(int)), this, SLOT(opacityChanged(int)) ); + + m_initializing = true; + GuiTools::updatePenStyles(ui.cbLineStyle, QColor(Qt::black)); + m_initializing = false; +} + +void ReferenceLineDock::setReferenceLines(QList list) { + m_initializing = true; + m_linesList = list; + m_line = list.first(); + m_aspect = list.first(); + Q_ASSERT(m_line); + + //if there are more then one point in the list, disable the comment and name widgets in the tab "general" + if (list.size() == 1) { + ui.lName->setEnabled(true); + ui.leName->setEnabled(true); + ui.lComment->setEnabled(true); + ui.leComment->setEnabled(true); + ui.leName->setText(m_line->name()); + ui.leComment->setText(m_line->comment()); + } else { + ui.lName->setEnabled(false); + ui.leName->setEnabled(false); + ui.lComment->setEnabled(false); + ui.leComment->setEnabled(false); + ui.leName->setText(QString()); + ui.leComment->setText(QString()); + } + ui.leName->setStyleSheet(""); + ui.leName->setToolTip(""); + + //show the properties of the first reference line + this->load(); + + //SIGNALs/SLOTs + connect(m_line, &AbstractAspect::aspectDescriptionChanged,this, &ReferenceLineDock::lineDescriptionChanged); + connect(m_line, &ReferenceLine::visibleChanged, this, &ReferenceLineDock::lineVisibilityChanged); + + //position + connect(m_line, &ReferenceLine::orientationChanged, this, &ReferenceLineDock::lineOrientationChanged); + connect(m_line, &ReferenceLine::positionChanged, this, &ReferenceLineDock::linePositionChanged); + + //line + connect(m_line, &ReferenceLine::penChanged, this, &ReferenceLineDock::linePenChanged); + connect(m_line, &ReferenceLine::opacityChanged, this, &ReferenceLineDock::lineOpacityChanged); +} + +//********************************************************** +//*** SLOTs for changes triggered in ReferenceLineDock ***** +//********************************************************** +//Position +void ReferenceLineDock::orientationChanged(int index) { + if (m_initializing) + return; + + ReferenceLine::Orientation orientation = (ReferenceLine::Orientation)index; + for (auto* line : m_linesList) + line->setOrientation(orientation); +} + +void ReferenceLineDock::positionChanged() { + if (m_initializing) + return; + + double pos = ui.lePosition->text().toDouble(); + for (auto* line : m_linesList) + line->setPosition(pos); +} + +//Line +void ReferenceLineDock::styleChanged(int index) { + if (m_initializing) + return; + + const auto penStyle = Qt::PenStyle(index); + QPen pen; + for (auto* line : m_linesList) { + pen = line->pen(); + pen.setStyle(penStyle); + line->setPen(pen); + } +} + +void ReferenceLineDock::colorChanged(const QColor& color) { + if (m_initializing) + return; + + QPen pen; + for (auto* line : m_linesList) { + pen = line->pen(); + pen.setColor(color); + line->setPen(pen); + } + + m_initializing = true; + GuiTools::updatePenStyles(ui.cbLineStyle, color); + m_initializing = false; +} + +void ReferenceLineDock::widthChanged(double value) { + if (m_initializing) + return; + + QPen pen; + for (auto* line : m_linesList) { + pen = line->pen(); + pen.setWidthF( Worksheet::convertToSceneUnits(value, Worksheet::Point) ); + line->setPen(pen); + } +} + +void ReferenceLineDock::opacityChanged(int value) { + if (m_initializing) + return; + + qreal opacity = (float)value/100.; + for (auto* line : m_linesList) + line->setOpacity(opacity); +} + +void ReferenceLineDock::visibilityChanged(bool state) { + if (m_initializing) + return; + + for (auto* line : m_linesList) + line->setVisible(state); +} + +//************************************************************* +//******* SLOTs for changes triggered in ReferenceLine ******** +//************************************************************* +void ReferenceLineDock::lineDescriptionChanged(const AbstractAspect* aspect) { + if (m_line != aspect) + return; + + m_initializing = true; + if (aspect->name() != ui.leName->text()) + ui.leName->setText(aspect->name()); + else if (aspect->comment() != ui.leComment->text()) + ui.leComment->setText(aspect->comment()); + + m_initializing = false; +} + +void ReferenceLineDock::linePositionChanged(double position) { + m_initializing = true; + ui.lePosition->setText(QString::number(position)); + m_initializing = false; +} + +void ReferenceLineDock::lineOrientationChanged(ReferenceLine::Orientation orientation) { + m_initializing = true; + ui.cbOrientation->setCurrentIndex((int)orientation); + m_initializing = false; +} + +void ReferenceLineDock::linePenChanged(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 ReferenceLineDock::lineOpacityChanged(qreal opacity) { + m_initializing = true; + ui.sbLineOpacity->setValue( round(opacity*100.0) ); + m_initializing = false; +} + +void ReferenceLineDock::lineVisibilityChanged(bool on) { + m_initializing = true; + ui.chkVisible->setChecked(on); + m_initializing = false; +} + +//********************************************************** +//******************** SETTINGS **************************** +//********************************************************** +void ReferenceLineDock::load() { + if (!m_line) + return; + + m_initializing = true; + + qDebug()<<"orient " << (int)m_line->orientation(); + ui.cbOrientation->setCurrentIndex((int)m_line->orientation()); + ui.lePosition->setText(QString::number(m_line->position())); + ui.cbLineStyle->setCurrentIndex( (int) m_line->pen().style() ); + ui.kcbLineColor->setColor( m_line->pen().color() ); + ui.sbLineWidth->setValue( Worksheet::convertFromSceneUnits(m_line->pen().widthF(), Worksheet::Point) ); + ui.sbLineOpacity->setValue( round(m_line->opacity()*100.0) ); + ui.chkVisible->setChecked( m_line->isVisible() ); + + m_initializing = false; +} + diff --git a/src/kdefrontend/dockwidgets/ReferenceLineDock.h b/src/kdefrontend/dockwidgets/ReferenceLineDock.h new file mode 100644 index 000000000..22eba0994 --- /dev/null +++ b/src/kdefrontend/dockwidgets/ReferenceLineDock.h @@ -0,0 +1,81 @@ +/*************************************************************************** + File : ReferenceLineDock.h + Project : LabPlot + Description : Dock widget for the reference line on the plot + -------------------------------------------------------------------- + Copyright : (C) 2020 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 * + * * + ***************************************************************************/ + +#ifndef REFERENCELINEDOCK_H +#define REFERENCELINEDOCK_H + +#include "kdefrontend/dockwidgets/BaseDock.h" +#include "backend/worksheet/plots/cartesian/ReferenceLine.h" +#include "ui_referencelinedock.h" + +class AbstractAspect; +class ReferenceLine; +class KConfig; + +class ReferenceLineDock : public BaseDock { + Q_OBJECT + +public: + explicit ReferenceLineDock(QWidget *); + void setReferenceLines(QList); + +private: + Ui::ReferenceLineDock ui; + QList m_linesList; + ReferenceLine* m_line{nullptr}; + + void load(); + void loadConfig(KConfig&); + +private slots: + //SLOTs for changes triggered in ReferenceLineDock + void visibilityChanged(bool); + + //Position + void orientationChanged(int); + void positionChanged(); + + //Line + void styleChanged(int); + void colorChanged(const QColor&); + void widthChanged(double); + void opacityChanged(int); + + //SLOTs for changes triggered in ReferenceLine + void lineDescriptionChanged(const AbstractAspect*); + void lineVisibilityChanged(bool); + + //Position + void linePositionChanged(double); + void lineOrientationChanged(ReferenceLine::Orientation); + + //Line + void linePenChanged(const QPen&); + void lineOpacityChanged(qreal); +}; + +#endif diff --git a/src/kdefrontend/ui/datasources/importfilewidget.ui b/src/kdefrontend/ui/datasources/importfilewidget.ui index b2cc75f7d..3412edcad 100644 --- a/src/kdefrontend/ui/datasources/importfilewidget.ui +++ b/src/kdefrontend/ui/datasources/importfilewidget.ui @@ -1,848 +1,866 @@ ImportFileWidget 0 0 706 1406 0 0 6 0 0 0 0 0 0 Data Source - - - - QAbstractItemView::NoEditTriggers + + + + false - + + + 0 + 0 + + + + Show file info + + + + + + + + + + + + + + + + + Name: + + + + + + false - - - 16 - 16 - + + + + + + Source: Topics: Qt::AlignLeading|Qt::AlignLeft|Qt::AlignTop - - + + + + Port: + + - - - - false + + + + LWT: - - + + - Name: + Connection: 0 0 Select the file to import - - - - false + + + + Qt::Horizontal - - Save the current filter settings + + QSizePolicy::Fixed + + + + 10 + 23 + + + + + + + + + 0 + 0 + + + + - - + + - - + + - Connection: + Type: + + + Qt::Horizontal 40 0 - - - - false - - - - 0 - 0 - - - - Manage filters - + + + + + + + + - + Baud rate: - - - + + + + QAbstractItemView::NoEditTriggers + + false - - - 0 - 0 - + + + 16 + 16 + - - + + - Source: + Filter: - - + + - Port: + Field: + + + Qt::AlignLeading|Qt::AlignLeft|Qt::AlignTop - - + + - - + + - - + + - Port: + Relative Path: - - + + - Filter: + Host: - - + + - Field: - - - Qt::AlignLeading|Qt::AlignLeft|Qt::AlignTop + Port: - - + + false - + 0 0 - - Show file info - - - - QFrame::NoFrame QFrame::Plain - - + + + + false + + + Save the current filter settings + + - - + + + + false + + + + 0 + 0 + + + + Manage filters + + + + + + + + File or Named Pipe Network TCP Socket Network UDP Socket Local Socket Serial Port + + + Web Service + + - - - - - 0 - 0 - - - - - - - - - - - Host: - - - - - - - LWT: - - - - - - - Type: - - - - - - - Qt::Horizontal - - - QSizePolicy::Fixed - - - - 10 - 23 - - - - - - - - Baud rate: - - - - - + + - + Request: - - - - Relative Path: - - + + false 0 0 true 0 0 0 0 0 0 0 Data format 0 0 0 0 0 0 0 0 0 0 0 0 0 Preview 0 0 Number of rows to preview: 1 10000 100 Qt::Horizontal 23 20 Refresh true QTextEdit::NoWrap true 0 0 Data portion to read Start row: Specify the end row to import; -1 stands for the last row -1 2147483647 -1 Start column: Specify the start column for import 1 2147483647 Qt::Horizontal QSizePolicy::Fixed 40 20 Specify the start row for import 1 2147483647 1 Qt::Horizontal 108 20 Qt::Horizontal QSizePolicy::Fixed 40 20 End column: Specify the end column to import; -1 stands for the last column -1 2147483647 -1 Qt::Horizontal 108 20 End row: Qt::Vertical 20 10 Update Options Continuously Fixed From End Till the End Update: Read: Update interval: All 999999 Keep last values: Sample size: 1 10000 1 0 0 Periodically On New Data 0 0 ms 5 60000 1000 Link the file true KComboBox QComboBox
kcombobox.h
 diff --git a/src/kdefrontend/ui/dockwidgets/referencelinedock.ui b/src/kdefrontend/ui/dockwidgets/referencelinedock.ui new file mode 100644 index 000000000..f0a2a8b05 --- /dev/null +++ b/src/kdefrontend/ui/dockwidgets/referencelinedock.ui @@ -0,0 +1,297 @@ + + + ReferenceLineDock + + + + 0 + 0 + 428 + 755 + + + + + 0 + + + + + 0 + + + + General + + + + + + Name: + + + + + + + Qt::Horizontal + + + QSizePolicy::Fixed + + + + 13 + 20 + + + + + + + + + 0 + 0 + + + + + + + + Comment: + + + + + + + + 0 + 0 + + + + + + + + Qt::Vertical + + + QSizePolicy::Fixed + + + + 20 + 18 + + + + + + + + + 75 + true + + + + Position + + + + + + + Orientation: + + + + + + + + + + Horizontal position relative to label's parent + + + x: + + + + + + + true + + + + + + + Qt::Vertical + + + QSizePolicy::Fixed + + + + 20 + 18 + + + + + + + + + 75 + true + + + + Line + + + + + + + Style: + + + + + + + + 0 + 0 + + + + + + + + Color: + + + + + + + + 0 + 0 + + + + + + + + Width: + + + + + + + pt + + + 2 + + + 100.000000000000000 + + + 0.500000000000000 + + + + + + + Opacity: + + + + + + + + 0 + 0 + + + + The opacity ranges from 0 to 100, where 0 is fully transparent and 100 is fully opaque. + + + % + + + + + + 0 + + + 100 + + + 10 + + + 100 + + + + + + + Qt::Vertical + + + + 20 + 694 + + + + + + + + Visible + + + + + + + + + + + + KComboBox + QComboBox +
kcombobox.h
+ + + KColorButton + QPushButton +
kcolorbutton.h
+ + + + +