With many guides updated and the application Help tracking closely the latest LibreOffice release, the team made all efforts to keep the pace of the development, bringing the new features to the public in the set of books, Help online and more.
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With many guides updated and the application Help tracking closely the latest LibreOffice release, the team made all efforts to keep the pace of the development, bringing the new features to the public in the set of books, Help online and more.
Since the first implementation of a dark color theme we continuously improved the customization of LibreOffice. In a GSoC projects this year, Sahil Gautam made it possible to not only change the application colors but also what is defined by the operating system respectively the desktop environment.…
Berlin, 19 December 2024 – LibreOffice 24.8.4, the fourth minor release of the LibreOffice 24.8 family of the free open source, volunteer-supported office suite for Windows (Intel, AMD and ARM), MacOS (Apple and Intel) and Linux, is available at www.libreoffice.org/download.
The release includes over 55 bug and regression fixes over LibreOffice 24.8.3 [1] to improve the stability and robustness of the software, as well as interoperability with legacy and proprietary document formats.
LibreOffice is the only office suite that respects the privacy of the user, ensuring that the user is able to decide if and with whom to share the content they create. It even allows deleting user related info from documents. As such, LibreOffice is the best option for the privacy-conscious office suite user, while offering a feature set comparable to the leading product on the market.
Also, LibreOffice offers a range of interface options to suit different user habits, from traditional to modern, and makes the most of different screen sizes by using all the space available on the desktop to put the maximum number of features just a click or two away.
The biggest advantage over competing products is the LibreOffice Technology engine, the single software platform on which desktop, mobile and cloud versions of LibreOffice – including those from ecosystem companies – are based.
This allows LibreOffice to produce identical and fully interoperable documents based on two ISO standards: the open and neutral Open Document Format (ODT, ODS, ODP) and the closed and fully proprietary Microsoft OOXML (DOCX, XLSX, PPTX), which hides a large amount of artificial complexity, and can cause problems for users who are confident that they are using a true open standard.
End users looking for support can download the LibreOffice 24.8 Getting Started, Writer, Impress, Draw and Math guides from the following link: books.libreoffice.org/. In addition, they can get first-level technical support from volunteers on mailing lists and the Ask LibreOffice website: ask.libreoffice.org.
LibreOffice for Enterprise
For enterprise-class deployments, TDF strongly recommends the LibreOffice Enterprise family of applications from ecosystem partners, with three or five year backporting of security patches, other dedicated value-added features and Service Level Agreements: www.libreoffice.org/download/libreoffice-in-business/.
Every line of code developed by ecosystem companies for enterprise customers is shared with the community on the master code repository and improves the LibreOffice Technology platform. Products based on LibreOffice Technology are available for all major desktop operating systems (Windows, macOS, Linux and ChromeOS), mobile platforms (Android and iOS) and the cloud.
The Document Foundation’s migration protocol helps companies move from proprietary office suites to LibreOffice, by installing the LTS (long-term support) enterprise-optimised version of LibreOffice, plus consulting and training provided by certified professionals: www.libreoffice.org/get-help/professional-support/.
In fact, LibreOffice’s mature code base, rich feature set, strong support for open standards, excellent compatibility and LTS options make it the ideal solution for organisations looking to regain control of their data and break free from vendor lock-in.
LibreOffice 24.8.4 availability
LibreOffice 24.8.4 is available from www.libreoffice.org/download/. Minimum requirements for proprietary operating systems are Microsoft Windows 7 SP1 (no longer supported by Microsoft) and Apple MacOS 10.15. Products for Android and iOS are at www.libreoffice.org/download/android-and-ios/.
Users of the LibreOffice 24.2 branch (the last update being 24.2.7), which has recently reached end-of-life, should consider upgrading to LibreOffice 24.8.4, as this is already the most tested version of the program. Early February will see the announcement of LibreOffice 25.2.
LibreOffice users, free software advocates and community members can support The Document Foundation by donating at www.libreoffice.org/donate.
Enterprise deploying LibreOffice can also donate, although the best solution for their needs would be to look for the enterprise optimized versions of the software (with Long Term Support for security and Service Level Agreements to protect their investment) at www.libreoffice.org/download/libreoffice-in-business/.
[1] Fixes in RC1: wiki.documentfoundation.org/Releases/24.8.4/RC1. Fixes in RC2: wiki.documentfoundation.org/Releases/24.8.4/RC2.
Kudos to Ilmari Lauhakangas for helping to elaborate this list.
399 bugs, 65 of which are enhancements, have been reported by 264 people.
Top 10 Reporters
416 bugs have been triaged by 72 people.
Top 10 Triagers
380 bugs have been set to RESOLVED.
Check the following sections for more information about bugs resolved as FIXED, WORKSFORME and DUPLICATE.
118 bugs have been fixed by 30 people.
Top 10 Fixers
List of critical bugs fixed
List of high severity bugs fixed
List of crashes fixed
List of old bugs ( more than 4 years old ) fixed
44 bugs have been retested by …
We’ve finished editing and uploading another batch of videos from our recent conference in Luxembourg. Now the playlist has a total of 51 videos and is almost entirely complete! (There are a couple more that we’re chasing up.)
So, enjoy watching and learning about the technology and community behind the suite. Use the icon in the top-right to choose videos from the playlist:
Please confirm that you want to play a YouTube video. By accepting, you will be accessing content from YouTube, a service provided by an external third party.
If you accept this notice, your choice will be saved and the page will refresh.
Our team member Peter Schofield just updated the Impress, Draw and Math guides to the latest LibreOffice 24.8 release.
The Impress, Draw and Math guides are the authoritative guides for the end user. They cover presentation, drawings and equation documents. These guides are part of the LibreOffice community offering for the public in general that needs to close the knowledge gap in using LibreOffice.
The guides can be downloaded from the LibreOffice Bookshelf as well as from the Documentation website.
LibreOffice 25.2 will be released as final at the beginning of February, 2025 ( Check the Release Plan ) being LibreOffice 25.2 Beta1 the second pre-release since the development of version 25.2 started in mid Juny, 2024. Since the previous release, LibreOffice 25.2 Alpha1, 450 commits have been submitted to the code repository and 105 issues got fixed. Check the release notes to find the new features included in this version of LibreOffice.
LibreOffice 25.2 Beta1 can be downloaded for Linux, macOS and Windows, and it can be installed alongside the standard version.
In case you find any problem in this pre-release, please report it in Bugzilla ( You just need a legit email account in order to create a new account ).
For help, you can contact the QA Team directly in the QA IRC channel or via Matrix.
LibreOffice is a volunteer-driven community project, so please help us to test – we appreciate it!
Happy testing!!
…
Impress shape text doesn't have much support for styles, e.g. the default UI in Writer gives you a paragraph style dropdown, and you don't get the same in Impress. Still, a paragraph style is attached to bullets based on their outline level, and Impress has a View → Outline menu item to give you that styled text you can copy. Pasting that to Writer started to lose styles recently and it's now fixed to work again.
This work is primarily for Collabora Online, but the feature is available in desktop Impress as well.
As described in a previous commit, I had a case where lots of not needed paragraph styles were exported to RTF in case an Impress document had enough master pages. The idea was to only export actually used paragraph styles, to avoid wasting CPU power.
Turns out filtering out paragraph styles has to happen at two locations:
The problem was that unused styles were removed from the style table, but not from the style → index mapping, so as soon as you had both used and unused paragraph styles, the declared and the referred style indexes didn't match anymore.
Here is a sample paste result in Writer, where you can see that the text doesn't have a custom paragraph style:
And here is the same paste, now with paragraph styles restored:
As you can see, now the pasted text has paragraph styles.
If you would like to know a bit more about how this works, continue reading... :-)
The bugfix commit was editeng RTF export: fix broken offsets into the para style table.
The tracking bug was tdf#163883.
You can get a development edition of Collabora Online 24.04 and try it out yourself right now: try the development edition. Collabora intends to continue supporting and contributing to LibreOffice, the code is merged so we expect all of this work will be available in TDF's next release too (25.2).
Let me count the ways, in no particular order and in no way exhaustive:
std::unique_ptr<SalLayout> ImplLayout( const OUString&, sal_Int32 nIndex, sal_Int32 nLen, const Point& rLogicPos = Point(0, 0), tools::Long nLogicWidth = 0, KernArraySpan aKernArray = KernArraySpan(), std::span<const sal_Bool> pKashidaArray = {}, SalLayoutFlags flags = SalLayoutFlags::NONE, vcl::text::TextLayoutCache const* = nullptr, const SalLayoutGlyphs* pGlyphs = nullptr, std::optional<sal_Int32> nDrawOriginCluster = std::nullopt, std::optional<sal_Int32> nDrawMinCharPos = std::nullopt, std::optional<sal_Int32> nDrawEndCharPos = std::nullopt) const;
by Chris Sherlock (noreply@blogger.com) at November 29, 2024 10:58 PM
LibreOffice 25.2 will be released as final at the beginning of February, 2025 ( Check the Release Plan ) being LibreOffice 25.2 Alpha1 the first pre-release since the development of version 25.2 started in mid Juny, 2024. Since then, 5184 commits have been submitted to the code repository and 710 bugs were set to FIXED in Bugzilla. Check the release notes to find the new features included in this version of LibreOffice.
LibreOffice 25.2 Alpha1 can be downloaded for Linux, macOS and Windows, and it can be installed alongside the standard version.
In case you find any problem in this pre-release, please report it in Bugzilla ( You just need a legit email account in order to create a new account ).
For help, you can contact the QA Team directly in the QA IRC channel or via Matrix.
LibreOffice is a volunteer-driven community project, so please help us to test – we appreciate it!
Happy testing!!
…
This post is about recent improvements for ZetaJS, the JavaScript wrapper library for ZetaOffice’s WebAssembly version of LibreOffice:
There is something of a mismatch between the UNO type system and the JavaScript types used by zetajs. For example, JavaScript only has a single number type for both integer and floating point values, while UNO has a whole slew of different numeric types (BYTE, SHORT, UNSIGNED SHORT, LONG, UNSIGNED LONG, FLOAT, DOUBLE) that all map to that one JavaScript type. Similarly, the different UNO sequence<T> types all map to JavaScript arrays, where information about the UNO element type T is lost.
Normally, that’s not an issue. When you call a UNO method that returns a LONG, you get a number just like when you call a UNO method that returns a DOUBLE, and your JavaScript code then has a number to work with, and that’s all. Similarly, when you call a UNO method that returns a sequence<LONG>, you get an array of numbers you can work with, just like when you call a UNO method that returns a sequence<DOUBLE>. And when you then call a UNO method that takes a seaquence<LONG> as an argument, you pass in an array of numbers, and the zetajs runtimes figures out how to dress that array up as a UNO sequence<LONG>, and all is well.
However, one place where UNO’s insistance on more precise typing gets in the way is the UNO ANY type. It is not just a means to transport any kind of UNO value, it also carries precise type information. A UNO ANY value that contains a LONG of value 1 is something different than a UNO ANY vlaue that contains an UNSIGNED LONG of value 1. And a UNO ANY value that contains a reference of type css.uno.XInterface to some UNO object is something different than a UNO ANY value that contains a reference of type css.lang.XComponent to the same UNO object.
Again, most of the time, those precise distinctions are irrelevant to most of the code. When you call a UNO method that returns an ANY, and you know that that ANY value must contain a LONG, you just want to get a JavaScript number out, regardless of what precise numeric UNO type was encoded in that ANY value. Similarly, when you call a UNO method that returns an ANY that must contain a css.uno.XInterface reference, you just want to get some JavaScript object that you can do further UNO method calls on (or null), regardless of what precise UNO interface type was encoded in that ANY value. And when you then call a UNO method that takes an ANY that must contain a LONG, you want to just pass in a JavaScript number, and the zetajs runtime shall figure out how to dress that up as a UNO ANY containing a LONG (or throw an exception, if you passed something that just can’t be dressed up accordingly).
But, sometimes, you need more fine-grained control. There might be a UNO method that takes an ANY argument and behaves completely differently when you pass it a LONG of value 1 or an UNSIGNED LONG of value 1. But when you call that UNO method with the JavaScript number 1, zetajs will always dress that up as a UNO ANY of type LONG for you, never as an UNSIGNED LONG. To solve that issue, the zetajs UNO binding also has the notion of a zetajs.Any JavaScript type, which records a value along with its precise UNO type. You can thus pass either a new zetajs.Any(zetajs.type.long, 1) or a new zetajs.Any(zetajs.type.unsigned_long, 1) when you call that picky UNO method.
Now, when a UNO method returns an ANY value, the zetajs binding used to be conservative: You might want to know exactly what UNO type it contains (even though, most of the time you don’t actually care), so it always returned those wrapped zetajs.Any objects that carry the precise contained UNO type. But that lead to awkward code. When you call e.g. x.nextElement() to get a UNO ANY that contains a reference to another UNO object, you had to unwrap that first (with zetajs.fromAny) before you could do any further calls on the obtained UNO object: zetajs.fromAny(x.nextElement()).doSomething(). But you know that this call to x.nextElement() will return an ANY containing an interface reference, and you don’t care about the exact UNO interface type—you just want to do another method call on the obtained object.
So, recently (in Let zetajs return unwrapped ANY representations), the zetajs binding was changed so that it now always returns unwrapped UNO ANY values: x.nextElement() no longer returns a zetajs.Any wrapper (on which you would need to call zetajs.fromAny first), it directly returns the relevant JavaScript object. And the resulting overall code looks way better: x.nextElement().doSomething().
When, in the other direction, you pass something into a UNO method that takes an ANY argument, you still have the same options you had before: Either, you simply pass the JavaScript number 1, and zetajs figures out for you that that should be dressed up as a UNO ANY of type LONG, or you want to be picky and pass in either a new zetajs.Any(zetajs.type.long, 1) or a new zetajs.Any(zetajs.type.unsigned_long, 1).
And when it comes time that you do want to be picky about the ANY values that you obtain as return values from UNO method calls, there’s now a $precise way to do that: x.$precise.nextElement() (and same for any other UNO method call) will always give you back a wrapped zetajs.Any value. See the updated The zetajs UNO Mapping for all the details.
LibreOffice uses VCL (Visual Class Library) as its internal widget toolkit to create the graphical user interface (GUI) of LibreOffice. Here I discuss how to use UI files designed with Glade interface designer to create LibreOffice user interfaces with a framework called weld, which is part of LibreOffice core source code.
In my previous blog post, you can find out about the structure of a minimal VCL application. Please refer to the below blog post to see how a Window is created in VCL, and how it can be used as a test workbench called minvcl. You can run it with ./bin/run minvcl after you build LibreOffice.
Here I discuss how to go further, and create user interface with Glade interface designer, and do most of the things without writing code.
In order to simplify user interface creation in LibreOffice, experienced LibreOffice developer, Caolán, has introduced a mechanism to load UI files created with Glade interface designer, and use them as if they are UI files for each and every GUI framework that LibreOffice supports: from GTK itself to Qt, Windows, macOS and even the so-called gen backend that only requires the X11 library on Linux.
To illustrate how the VCL weld mechanism works, I have added a minimal example, minweld, as a test workbench. The structure of the code is very similar to the previous example, minvcl, but there are some changes in the code. In the new code, UI is created from a .ui file that is designed visually with Glade interface designer. The .ui file is an XML file which contains placement of widgets that should be displayed on the screen.
The complete code for minweld is available in the LibreOffice core source code repository, which can also be viewed online:
In minweld, I have used an existing Glade UI file, tipofthedaydialog.ui. This is the user interface for displaying a tip of the day in LibreOffice at startup. Heiko, the TDF design mentor, has discussed this dialog box in detail before:
But, you can assume that it is a simple .ui file, that one can create with Glade. Here, we use it to create our own user interface in C++. You may use any other .ui file that you have created with almost the same code.
Tip of the day displayed at LibreOffice startup
This UI file is found in cui/uiconfig/ui/tipofthedaydialog.ui, and minweld loads it. This is how it looks when you open it in Glade interface designer:
tipofthedaydialog.ui in Glade user interface designer
Let’s look into the specifics of minweld.cxx.
Headers are almost the same, but here we use vcl/weld.hxx instead of vcl/wrkwin.hxx. Therefore, you can see this line in the code:
#include <vcl/weld.hxx>
Then we have the C++ code for the application. The TipOfTheDayDialog class is defined with:
class TipOfTheDayDialog : public weld::GenericDialogController { public: TipOfTheDayDialog(weld::Window* pParent = nullptr); DECL_LINK(OnNextClick, weld::Button&, void); private: std::unique_ptr<weld::Label> m_pTextLabel; std::unique_ptr<weld::Button> m_pNextButton; sal_Int32 m_nCounter = 0; }; ... }
As you can see, TipOfTheDayDialog inherits from weld::GenericDialogController, and not Application class as before. Also, TipOfTheDayDialog constructor receives a parent of type weld::Window*, which is nullptr now. The reason is that there is no parent window in this example. Using weld:: prefix is also done for other types of widgets that we use in LibreOffice. For example, we use weld::Button to denote a push button in LibreOffice, or in any application that is created with the vcl::weld mechanism.
This is the code for the TipOfTheDayDialog constructor. Here, we initialize two member variables, m_pTextLabel and m_pNextButton which point to a label and a button, respectively. We will interact with these two in our code. There are string literals like lbText and btnNext , which are the IDs of those widgets in Glade. The IDs should be unique for linking to specific variables in the code.
TipOfTheDayDialog::TipOfTheDayDialog(weld::Window* pParent) : weld::GenericDialogController(pParent, u"cui/ui/tipofthedaydialog.ui"_ustr, u"TipOfTheDayDialog"_ustr) , m_pTextLabel(m_xBuilder->weld_label(u"lbText"_ustr)) , m_pNextButton(m_xBuilder->weld_button(u"btnNext"_ustr)) { m_pNextButton->connect_clicked(LINK(this, TipOfTheDayDialog, OnNextClick)); }
One last step is linking the events with functions in the code. You may do that with the LINK macro. In the last line, connect_clicked activates OnNextClick from the class TipOfTheDayDialog, whenever m_pNextButton is clicked.
This is the implementation of the event handler. It should be started with IMPL_LINK macro, in the form of IMPL_LINK_NOARG(Class, Member, ArgType, RetType). The code is straightforward: It increases a counter which is initially zero, and displays it alongside a text:
IMPL_LINK_NOARG(TipOfTheDayDialog, OnNextClick, weld::Button&, void) { ++m_nCounter; m_pTextLabel->set_label(u"Here you will see tip of the day #"_ustr + OUString::number(m_nCounter) + "."); }
With a call to set_label function, m_pTextLabel is updated every time that you click on “Next Tip” button.
You may run the example after you have built LibreOffice from sources. Then, you may simply invoke:
./bin/run minweld
The result is a little bit different from the tipoftheday dialog in LibreOffice, as it does not use a picture. But, it has a nice feature: if you click on “Next Tip”, it will show a text and a counter that goes up whenever you click on it again.
You may look into the original “tip of the day” dialog box in cui/source/dialogs/tipofthedaydlg.cxx, which is more complex than the one that we created here, as it reads some data from the configuration and uses images. But, the idea is the same. Inherit a class from GenericDialogController, define and link variables to the widgets with their IDs, add event handlers. Now, the application with VCL graphical user interface is ready to use!
This is somehow similar to the way one creates dialog boxes with Qt and other widget toolkits. On the other hand, the VCL weld mechanism is different in the way that it uses such a toolkit to create UI on the fly. Therefore, if you choose a desired VCL UI plugin, then it will use that specific library for creating user interface. For example, you can run minweld example with Qt this way:
export SAL_USE_VCLPLUGIN=qt5 ./bin/run minweld
The minweld example in Qt (light theme)
You may also run it with GTK3 UI, this way:
export SAL_USE_VCLPLUGIN=gtk3 export GTK_THEME=Adwaita:light # For light/dark theme ./bin/run minweld
The minweld example in GTK3 (light theme)
I hope that this explanation was helpful for you to understand the basics of GUI design and implementation in LibreOffice. You can try doing small improvements in LibreOffice GUI by looking into the EasyHacks that with the tag “Design“:
TDF Wiki: EasyHacks categorized by “Design” as the required skill
We welcome your code submissions to improve LibreOffice. If you would like to start contributing to LibreOffice, please take a look at our video tutorial:
by Popa Adrian Marius (noreply@blogger.com) at November 21, 2024 09:05 AM
Notebookbar, or tabbed interface is an attempt to modernize LibreOffice user interface. In these series, I try to explain the implementation in LibreOffice code. In the first part, I discuss custom Glade widgets that are building blocks of Notebookbar user interface.
If you haven’t built LibreOffice from sources before, you can refer to can refer to this tutorial:
The next sections assume that you have a working build environment.
Notebookbar implementation consists of .ui files, configuration files and C++ implementation. Let’s look into the user interface files.
First time that you clone LibreOffice source code, and try to open a Notebookbar UI file like this, you may see error:
$ glade ./sc/uiconfig/scalc/ui/notebookbar.ui
You may see an error, which indicates that a required catalog related to LibreOffice is not available.
Glade error
To fix this issue, you have to know that Notebookbar uses custom widgets that with the Glade interface designer. These custom widgets are available from a Glade catalog with the name of LibreOffice.
Inside sc/uiconfig/scalc/ui/notebookbar.ui, you may see these two lines:
<requires lib="gtk+" version="3.20"/> <requires lib="LibreOffice" version="1.0"/>
Glade catalogs are xml files with the keyword glade-catalog inside them, so we can search for this keyword:
$ git grep -l glade-catalog extras/source/glade/libreoffice-catalog.xml.in extras/source/glade/makewidgetgroup.xslt
The .in files is an input file in which the build process creates the final xml file out of it. Searching for glade-catalog inside the build folder results:
$ grep -lr glade-catalog ... instdir/share/glade/libreoffice-catalog.xml
As you can see, the result goes inside the folder instdir/share/glade/, so to be able to use the catalog, you should add this folder to the glade catalog search path. One of the easiest ways to do this, is to add it via Glade interface itself. Use ☰ (hamburger menu), go to “Glade Preferences”, and add instdir/share/glade/ to the “Extra Catalog & Template paths”. Then, reload a notebookbar UI file, and the error should go away. This setting is saved inside ~/.config/glade.conf configuration file.
Inside the Glade custom catalog instdir/share/glade/libreoffice-catalog.xml, you can see 10 custom widgets:
$ grep "glade-widget-class\ " instdir/share/glade/libreoffice-catalog.xml <glade-widget-class title="Notebookbar ToolBox" name="sfxlo-NotebookbarToolBox" generic-name="Notebookbar ToolBox" parent="GtkToolbar" icon-name="widget-gtk-toolbar"> <glade-widget-class title="Notebook switching tabs depending on context" name="sfxlo-NotebookbarTabControl" generic-name="NotebookbarTabControl" parent="GtkNotebook" icon-name="widget-gtk-notebook"/> <glade-widget-class title="Horizontal box hiding children depending on its priorities" name="sfxlo-PriorityHBox" generic-name="PriorityHBox" parent="GtkBox" icon-name="widget-gtk-box"/> <glade-widget-class title="Horizontal box hiding children depending on its priorities" name="sfxlo-PriorityMergedHBox" generic-name="PriorityMergedHBox" parent="GtkBox" icon-name="widget-gtk-box"/> <glade-widget-class title="Box which can move own content to the popup" name="sfxlo-DropdownBox" generic-name="DropdownBox" parent="GtkBox" icon-name="widget-gtk-box"/> <glade-widget-class title="Box which can hide own content" name="VclOptionalBox" generic-name="VclOptionalBox" parent="GtkBox" icon-name="widget-gtk-box"/> <glade-widget-class title="Vertical box hiding children depending on context" name="sfxlo-ContextVBox" generic-name="ContextVBox" parent="GtkBox" icon-name="widget-gtk-box"/> <glade-widget-class title="Managed Menu Button" name="svtlo-ManagedMenuButton" generic-name="ManagedMenuButton" parent="GtkButton" icon-name="widget-gtk-button"/> <glade-widget-class title="NotebookBar Toolbar Addons" name="NotebookBarAddonsToolMergePoint" generic-name="ShowText" parent="GtkToolButton" icon-name="widget-gtk-toolbutton"/> <glade-widget-class title="NotebookBar MenuItem Addons" name="NotebookBarAddonsMenuMergePoint" generic-name="ShowText" parent="GtkMenuItem" icon-name="widget-gtk-menuitem"/>
The previous xml shows the custom widgets that are building blocks of building Notebookbar. Let’s look into each of them, based on their title and names.
Notebookbar widgets
In the next picture, you can see the notebookbar in LibreOffice, and compare it to what is visible in Glade user interface designer. As you can see, not everything is visible in the designer. Specifically, icons and text are not visible in the designer but are visible in the final application.
Notebookbar in LibreOffice
1. Notebookbar Tab Control: This widget has the name sfxlo-NotebookbarTabControl, and is the primary widget for Notebookbar. It can change the set of visible tabs based on the user context. Its parent class is GtkNotebook and provides context-sensitive tab switching.
2. NotebookbarToolBox: This widget is named sfxlo-NotebookbarToolBox, its parent class is GtkToolbar. It can contain toolbar elements.
NotebookbarTabControl
3. Priority Horizontal Box: This widget has the name sfxlo-PriorityHBox, and its parent class is GtkBox. It is the horizontal box hiding children depending on its priorities. In this way, lower priority widgets becomes hidden to give the more important widgets room to be displayed on a screen that is not big enough to show all the available elements.
4. Priority Merged Horizontal Box: This widget has the name sfxlo-PriorityMergedHBox, and its parent class is GtkBox. It is the “horizontal box hiding children depending on its priorities”. This widget is also related to the previous one for creating more room for important widgets, but it is used inside the PriorityHBox.
5. Optional Box: This widget has the name VclOptionalBox, and its parent class is GtkBox. This “box which can hide own content”, is a widget that is useful for creating small areas dedicated to a specific purpose. For example, you may see Home-Section-Clipboard, which is used to define an area for clipboard related tasks inside Home tab.
6. Contextual Vertical Box: This widget has the name sfxlo-ContextVBox and is a “vertical box hiding children depending on context” and its parent class is GtkBox. It provides a box that can act based on the context, showing and hiding its children accordingly. You may look into sw/uiconfig/swriter/ui/notebookbar_single.ui, which provides an example use.
Here is the correct control hierarchy, as depicted and described in the TDF Wiki:
Correct Notebookbar controls hierarchy
7. Dropdown Box: This widget has the name sfxlo-DropdownBox, its parent class is GtkBox and is a “box which can move own content to the popup”. This is also useful where the space for the tabbed interface is not big enough. The menu, is what you can see in “File” and “Help” menu in every notebookbar in LibreOffice tabbed interface. Please note that only 1 GtkBox child should be inside it, so that the popup works properly. In fact, the above diagram shows the correct usage.
8. Managed Menu Button: This widget has the name svtlo-ManagedMenuButton, and its parent class is GtkButton. It is a “Managed Menu Button”. It provides a button that opens a dynamic menu which is populated according to the context.
9. NotebookBar MenuItem Addons: This widget has the name NotebookBarAddonsToolMergePoint, and its parent class is GtkToolButton. Specifically, LibreOffice extensions can use it for adding additional tools to the notebookbar.
10. NotebookBar MenuItem Addons: This widget has the name NotebookBarAddonsMenuMergePoint, and its parent class is GtkMenuItem. This is also used for adding extra items into the notebookbar.
You can find useful information about Notebookbar in the design team blog:
And at last, these are some useful Wiki articles around Notebookbar in the TDF Wiki:
Kudos to Ilmari Lauhakangas for helping to elaborate this list.
468 bugs, 83 of which are enhancements, have been reported by 301 people.
Top 10 Reporters
356 bugs have been triaged by 65 people.
Top 10 Triagers
349 bugs have been set to RESOLVED.
Check the following sections for more information about bugs resolved as FIXED, WORKSFORME and DUPLICATE.
126 bugs have been fixed by 32 people.
Top 10 Fixers
List of critical bugs fixed
List of high severity bugs fixed
List of crashes fixed
List of performance issues fixed
List of old bugs ( more than 4 years old ) fixed
Hamburg and Bolzano, November 8th, 2024 – During the two-day annual South Tyrol Free Software Conference, allotropia software GmbH today announces beta versions of its new product line “ZetaOffice”.
ZetaOffice is a new set of applications, libraries and services, all powered by the LibreOffice Technology stack. Featured among its products is ZetaJS, an innovative browser-based plugin, with unique programmability & embeddability – the perfect tool for complex office editing, process automation and line-of-business applications in the web.
Additionally, leveraging the unique portability and flexibility of the LibreOffice Technology stack, ZetaOffice will be available in bit-by-bit identical versions (allowing for perfect interoperability and feature parity) also for open-source-based mobile operating systems (Android, and derived OS), as well as for all relevant desktop operating systems (Windows, macOS, Linux – via flatpak and snapcraft).
“We’re very excited being able to offer powerful, data-sovereign Open Source office functionality on even more platforms today”, says Thorsten Behrens, owner and managing director of allotropia software. “In particular our innovative, WASM-based browser version of LibreOffice will be a game-changer for every web developer in need of processing, analysing or integrating with office documents.”
“This could not have come at a better time”, says Michiel Leenaars, director of strategy at philanthropic investor NLnet Foundation. “It is long overdue but certainly in the wake of the recent geo-political developments, we all recognise the urgent need for Europe to regain its technological independence when it comes to core technologies – as boring as these may seem. ZetaOffice shows that Europe has the talent and capacity to break with the past and create new paradigms and use innovation and collaboration to save the day.”
“ZetaOffice is the perfect addition to our portfolio of tools for document and business process automation”, says Uli Brandner, CEO and owner of CIB Group. “With solutions like CIB flow for workflow modeling and CIB coSys for high-quality template management, CIB Group already offers powerful digitalization tools. As demand grows to bring proven applications to the web and stay on the cutting edge of technology, ZetaOffice stands out as an innovative solution precisely tailored to our customers’ needs.”
A detailed blog post, including links to beta versions of the software, is available here.
For the products, please refer to our website at zetaoffice.net.
ZetaOffice and the team at allotropia thanks the European Commission’s Next Generation Internet initiative/NGI Zero for its financial contribution to the development of this software.
About ZetaOffice:
ZetaOffice is a product line based on LibreOffice Technology, comprising of desktop LTS products for classical office productivity requirements; a browser-native version based on WebAssembly for fast, client-side integration and automation of office technology; and an
upcoming mobile app widget, for deep integration in mobile line-of-business applications. ZetaOffice is focused on speed, superb embeddability, excellent inter-product as well as Office compatibility, and geared towards digital-sovereign & data protection needs.
About ZetaJS:
ZetaJS is a JavaScript library, available via the npm package manager, to enable developers to quickly & conveniently embed ZetaOffice WebAssembly in web applications. ZetaJS makes available the entire gamut of the LibreOffice programmability interfaces, providing a web-native component for JavaScript developers to deeply embed an office suite into their web apps. In contrast to classical cloud-office setups, ZetaJS can be used as an integral, client-side part of any web application – permitting users to interact with office documents as part of a larger application framework, with very low latency. That way, e.g. direct integration for editing, suggestions or running calculations in complex spreadsheets can be provided. Similarly, it’s trivially easy to implement direct, client-side rendering and export of office documents into PDF or HTML – all via a self-hostable, digital-sovereign Open Source solution.
About allotropia software GmbH:
The company allotropia software GmbH provides services, consulting and products around LibreOffice and related opensource projects. Founded in 2020 by long-time developers of the project, its stated mission is to make LibreOffice shine – in as many different shapes and forms as necessary to serve modern needs towards office productivity software. allotropia software GmbH is headquartered in Hamburg, Germany at the birthplace of the OpenOffice/LibreOffice project. For more information, visit allotropia.de, or follow fosstodon.org/@allotropia on Mastodon and LinkedIn: www.linkedin.com/company/allotropia-software-gmbh
Today allotropia has launched the ZetaOffice range of products at the SFSCON in South Tyrol. ZetaOffice is a LibreOffice Technology built & designed for professional use in the browser, on the desktop and on mobile.
We are excited to additionally announce a massively improved way for which LibreOffice Technology can be used fully client-side on the web. As an additional building block, we have developed the ZetaJS wrapper, which enables convenient embedding and automating WASM (WebAssembly) builds of ZetaOffice via JavaScript. With that, all of the LibreOffice Technology APIs and features are available to web applications – and by leveraging WASM, which runs ZetaOffice client-side, no server or cloud services are needed. All processing is taking place on the client browser, which minimizes latencies & load (of course, a minimal static delivery of web application code, assets and the WASM binary is still needed, but that’s extremely light-weight).Â
Let’s look at some simple examples to give you an idea, how easy ZetaOffice integration is. All comprise of an HTML and a JavaScript file. A ZetaOffice WASM build will automatically be included from the following URL. To replace it with a custom WASM build see config.sample.js of each demo.
https://cdn.zetaoffice.net/zetaoffice_latest/
Next you need to upload the zetajs/ folder onto a webserver of your choice, which sets the following HTTP headers (see developer.mozilla.org for further details):
Cross-Origin-Opener-Policy "same-origin"
Cross-Origin-Embedder-Policy "require-corp"
So back to the example code. The HTML files for all examples embed ZetaOffice and some JavaScript loading code. Please check the actual JavaScript file for the code interacting with ZetaOffice.
Lets have a look at the simple.html (see live). ZetaOffice displays its content using an HTML canvas. So in line 14 we initialize this canvas. Currently a list of attributes like is needed for the canvas. But we will migrate those attributes to the ZetaJS wrapper, so they won’t be needed anymore in the HTML code.
<canvas
id="qtcanvas" contenteditable="true"
style="height:100%; width:100%; border:0px none; padding:0;"/>
The Module variable on line 30 passes the information needed to initialize WASM binaries. First is the canvas. And second is an array of JavaScript files which will be executed in the main Web Worker running the WASM binary. Web Workers are a process like feature of the browsers WASM runtime environment. We pass the ZetaJS wrapper and a file with custom JavaScript code, in this example the simple.js. You may need to ensure, that the zeta.js is reachable under the given URL path.
Line 33 to 39 preload the soffice.js file to ensure, it’s not being blocked by the browsers origin policy when loaded from a foreign origin. Line 42 triggers a website resize event, to make ZetaOffice display nicely inside the canvas. This can be done more precise, as shown in the more complex demos. But for the start the resize event will be triggered after a fixed interval. And finally the soffice.js document is finally loaded which triggers the start of the WASM binary.
Second is the simple.js file. It’s running inside the same Web Worker as the WASM binary to enable interaction. When running in Chromium / Google Chrome you will find a dropdown list labeled “top” at the upper left of the “Console” tab in the developer tools. There you can select the em-pthread_1 Web Worker to debug code in the simple.js file.
Inside the simple.js you will find pretty much the same code as when controlling a LibreOffice running naively on Linux, Windows or any other native OS. It is using LibreOffice’s UNO interface. Most existing examples using UNO via Python or Basic can be easily moved to JavaScript.
The control flow is being passed by the Module.zetajs.thenwhich gets called as soon as the WASM binary is loaded. It passes the zetajs object from which we first get the common com.sun.star object (do not confuse it’s abbreviation css with HTML CSS). In the lines 11 to 21 we get some control objects via UNO, which allow us to trigger the load of an example office document example.odt which is embedded in the WASM binary.
Module.zetajs.then(function(zetajs) {
function getTextDocument() {
const css = zetajs.uno.com.sun.star;
const context = zetajs.getUnoComponentContext();
const desktop = css.frame.Desktop.create(context);
let xModel = desktop.getCurrentFrame().getController().getModel();
if (xModel === null
|| !zetajs.fromAny(
xModel.queryInterface(zetajs.type.interface(css.text.XTextDocument))))
{
xModel = desktop.loadComponentFromURL(
'file:///android/default-document/example.odt', '_default', 0, []);
}
const toolkit = css.awt.Toolkit.create(context);
Line 27 is where the actual application logic starts. In this simple example we get a cursor object from the document to insert the text string here! at the top. In the final section from line 32 to 38 each paragraph of the office document becomes colored in a random color.
const xText = xModel.getText();
const xTextCursor = xText.createTextCursor();
xTextCursor.setString("string here!");
}
{
const xModel = getTextDocument();
const xText = xModel.getText();
const xParaEnumeration = xText.createEnumeration();
for (const next of xParaEnumeration) {
const xParagraph = zetajs.fromAny(next);
const color = Math.floor(Math.random() * 0xFFFFFF);
xParagraph.setPropertyValue("CharColor", color);
}
This other simple-examples/ show you a little more interesting tasks you can do with the same basic techniques as shown here. While the HTML files are all the same, the simple_key_handler.js (see live) shows you how to register to ZetaOffice event handlers. And finally rainbow_writer.js (see live) uses this to implement a small tool coloring text as you write it.
The next big step is in the standalone/ (see live) example. It adds a nice loading animation and shows you how to pass messages between the WASM Web Worker and the browsers main thread, handling the HTML page. This is being used to implement some simple controls on the HTML page for formatting text inside ZetaOffice. The demo is build as a npm package and can be run according to the contained README.md. Don’t forget to pass an URL to the soffice_base_url variable as explained above!
Additional examples are vuejs3-ping-tool/ (see live) and letter-address-tool/ (see live). The vuejs3-ping-tool/is again a npm package, and show-cases how to automatically fill spreadsheets documents with values, displaying them in nicely animated Calc charts. The other letter-address-tool/ example gives you an impression how to connect ZetaOffice with external data sources to automatically create letters from templates, and export the result as office document or PDF file.
Please share your feedback as a comment in the blog, or use the GitHub issue tracker for suggestions or bugs in the code!
Writer TextBoxes provide the user with shapes that can have complex geometry and complex content. There is also a feature to capture shapes inside page boundaries: now the two features interact with each other better.
This work is primarily for Collabora Online, but the feature is available in desktop Writer as well.
As described in a previous post, Writer implements the TextBox feature with a pair of objects: a Draw shape (with complex geometry) and a (hidden) Writer TextFrame, providing complex content. To avoid wrapping problems, the underlying TextFrame always has its wrap type set to "through", i.e. text may wrap around the Draw shape, but the hidden TextFrame is always ignored during text wrapping.
In most cases this provides the expected behavior, because the user sees one object, so wrapping around at most one object is not surprising.
However, there is also an other feature, that shapes may be captured inside page frames: if their position would be outside the page frame, Writer corrects this, so they are not off-page. This also makes sense, so it can't happen that your document has a shape that is hard to find, due to a silly position.
The trouble comes when these two are combined: the Draw shape's position gets adjusted to be captured inside the page frame, but the TextFrame's wrap type is "through", and objects with this wrap type are an exception from the capturing mechanism, so the position of the two shapes get out of sync.
The problem is now solved by improving the layout, so in case the TextFrame is actually part of a Draw shape + TextFrame pair (forming a TextBox), then we calculate the effective wrap type of the TextFrame based on the wrap type of its Draw shape, so either both objects are captured or none, which results in consistent render result.
Here is a sample document where all margins are configured to be equal, but capturing corrected the Draw shape (and not the TextFrame):
And here is the same document, with consistent positioning:
As you can see, now the rendered margins actually equal, as wanted.
If you would like to know a bit more about how this works, continue reading... :-)
The bugfix commit was sw textbox: capture fly when its draw object is captured.
The tracking bug was tdf#138711.
You can get a development edition of Collabora Online 24.04 and try it out yourself right now: try the development edition. Collabora intends to continue supporting and contributing to LibreOffice, the code is merged so we expect all of this work will be available in TDF's next release too (25.2).
In previous blog posts about crashes in LibreOffice, I have discussed how to debug and fix some of crashes. Now I discuss a nice tool to keep track of the crash reports from volunteers: Crash report tool.
Crash report is available via this LibreOffice website:
You can see that different versions of LibreOffice listed there, and for each and every tracked version, number of crashes during the previous 1, 3, 7, 14 and 28 days can be seen. This is possible using the appropriate buttons on the top.
This data is gathered from those to volunteer to submit reports to make LibreOffice better.
This statistic is very helpful to understand the robustness of the builds in different versions.
If you choose a specific version, you may see signatures of the crashes. This is helpful when trying to fix crashes. For example, this is one of the crash signatures found in LibreOffice 24.8.0.3:
This shows that the crash happens in GetCharFormat() function. One may use this information to track and fix the problem.
Looking into one of the crashes, one may see the details of the crash, including the stack trace in the crashing thread, and link to the exact place of the source code that leads to the crash.
As an example, you can see this crash report.
Sometimes, experienced developers may be able to reproduce the bug using crash signatures while knowing some background. Otherwise, in most cases, filing a bug with documents and instructions to reproduce the bug is essential. Adding a link to the crash report can be helpful.
Windows Subsystem for Linux (WSL) is a mechanism to use complete Linux distributions on Windows. Here I discuss how to use it to build LibreOffice for both Linux and Windows binaries.
WSL is the relatively new mechanism in Windows that lets you use a complete Linux distribution alongside your Windows. Interoperability between WSL and Windows lets you to share files and utilities between Windows and Linux. That is where it becomes helpful for LibreOffice, as LibreOffice make depends heavily on GNU tools, which are available in Linux.
You can use WSL for 2 different scenarios:
1. Building for Linux: this is the full Linux build, in which Linux compilers, libraries and utilities will be used to create a Linux binary. You can then run or package the Linux build. You can find more information here:
Using WSL2 is recommended, as it is supposed to be faster, and also you can simply use the graphical interface of LibreOffice.
LibreOffice build on WSL with Linux binaries, displayed on Windows
When you run the resulting binary, the graphical interface is usable, and it will use GTK fronted by default.
2. Building for Windows: this is the WSL as helper mode, where it uses only a few Linux utilities like pkg-config, make, automake and a few other utilities to configure the project. Then, GNU Make for Windows will be the tool to build the project. More information is available here:
The results are Windows .exe files, and you can simply run them on Windows as native programs.
You can build LibreOffice on different platforms. On Windows, it is possible to use Cygwin, but using WSL can be faster, and considering some issues with recent Cygwin versions, WSL is an alternative.
One can imagine of other ways to build LibreOffice on Windows, including MinGW. But, at the moment, MinGW, both as a helper to use Visual Studio, and also as an independent distribution to build LibreOffice, is not usable due to various reasons.
And last note: if you do not have prior experience with LibreOffice development but you are interested, you can start from our video tutorial for getting started with LibreOffice development.
Kudos to Ilmari Lauhakangas for helping to elaborate this list.
479 bugs, 69 of which are enhancements, have been reported by 297 people.
Top 10 Reporters
464 bugs have been triaged by 66 people.
Top 10 Triagers
446 bugs have been set to RESOLVED.
Check the following sections for more information about bugs resolved as FIXED, WORKSFORME and DUPLICATE.
161 bugs have been fixed by 36 people.
Top 10 Fixers
List of critical bugs fixed
List of high severity bugs fixed
List of crashes fixed
List of performance issues fixed
The SVG export in Impress now supports a per-paragraph setting to handle semi-transparent shape text, while previously this was only possible to control at a per-shape level.
This work is primarily for Collabora Online, but the feature is available in desktop Impress as well.
As described in a previous post, Impress already had the capability to have semi-transparent shape text, but the SVG export of this for the case when not all paragraphs have the same setting was broken.
Transparency in SVG can be described as a property of a group (<g style="opacity: 0.5">...</g>)
and it can be also a property of the text (<tspan fill-opacity="0.5">...</tspan>).
The SVG export works with the metafile of the shape, so when looking for meta actions, it tries to
guess if the transparency will be for text: if so, it needs to use the tspan markup, otherwise
going with the g markup is OK.
What happened here is that meta action for a normal text started, so the SVG export assumed the text is not semi-transparent, but later the second line was still transparent, so we started a group element, and this resulted in a not even well-formed XML output.
The relevant part of the test document is simple: just 3 paragraphs, the second one is semi-transparent (and also has a bullet, as an extra):
Once this was exported to SVG, this resulted in a non-well-formed XML, so you got this error in a web browser:
Once tweaking the transparency mask writer to check if text started already, we get the correct SVG render:
If you would like to know a bit more about how this works, continue reading... :-)
The bugfix commit was SVG export: fix handling of semi-transparent text inside a list.
The tracking bug was tdf#162782.
You can get a development edition of Collabora Online 24.04 and try it out yourself right now: try the development edition. Collabora intends to continue supporting and contributing to LibreOffice, the code is merged so we expect all of this work will be available in TDF's next release too (25.2).
LibreOffice options page provides rich set of settings for everyone who wants to tune LibreOffice to match their needs. But, what if you as a developer, need setting dialogs that are needed elsewhere in the LibreOffice application? Here I discuss some of such use cases, which are handled by defining UNO commands.
The code for providing “Tools > Options” is not in a single module, but main part resides in cui module, which contains code which is used across different modules. Looking into cui/source/options/ folder from LibreOffice core source code, you can see various different source files related to the options. The biggest file there is cui/source/options/treeopt.cxx, which is the actual implementation of the tree-based dialog that you see when you open Tools > Options dialog. There are other C++ files that handle .ui files related to options. You can find those UI files in cui/uiconfig/ui/ folder with a name like opt*.ui:
$ ls cui/uiconfig/ui/opt*.ui
These files can be edited and they are used as described in the LibreOffice design blog:
Only some of the dialogs can be opened available via UNO dispatch commands. As an example, you may see “.uno:AdditionsDialog” is used both in cui/source/options/optgdlg.cxx for creating a dialog in Tools > Options (when you click for “more icons”), and also in sfx2/source/appl/appserv.cxx.
You can try running this UNO command in LibreOffice BASIC editor with this code snippet:
Sub Main()
Set oDispatch = CreateUnoService("com.sun.star.frame.DispatchHelper")
Dim args(0) As New com.sun.star.beans.PropertyValue
Set oFrame = StarDesktop.Frames.getByIndex(0)
oDispatch.executeDispatch(oFrame, ".uno:AdditionsDialog", "", 0, args)
End Sub
The above command is defined specifically to help developers use the “Extensions” dialog, anywhere in LibreOffice UI, from top menus to context menus and toolbars and also in code, in a simple way.
There is another dialog titled “Security Options and Warnings”, which is opened through .uno:OptionsSecurityDialog UNO command. In this way, it can be used easily in other modules of LibreOffice.
SecurityOptionsDialog
Adding a new UNO command was discussed before, in a separate blog post:
Adding a new UNO command for an options dialog is basically the same. There can be differences regarding the configurations and the data that is passed between the dialog and the caller.
When you create a dialog box directly like the code snippet below, you have access to the member functions defined for that specific dialog:
IMPL_LINK_NOARG( SwGlossaryDlg, PathHdl, weld::Button&, void )
{
SvxAbstractDialogFactory* pFact = SvxAbstractDialogFactory::Create();
ScopedVclPtr<AbstractSvxMultiPathDialog> pDlg(pFact->CreateSvxPathSelectDialog(m_xDialog.get()));
SvtPathOptions aPathOpt;
const OUString sGlosPath( aPathOpt.GetAutoTextPath() );
pDlg->SetPath(sGlosPath);
if(RET_OK == pDlg->Execute())
{
const OUString sTmp(pDlg->GetPath());
if(sTmp != sGlosPath)
{
aPathOpt.SetAutoTextPath( sTmp );
::GetGlossaries()->UpdateGlosPath( true );
Init();
}
}
}
As you can see, pDlg->GetPath() is accessible here, and you can use it to pass data. But when you are using UNO commands, those functions will not be available directly. Instead, you may pass values that denote the data that will be read from somewhere else, like the configuration.
For example, consider there are multiple paths that you may want to edit using this UNO command with the same dialog. In this case, you can pass a value that shows the associated path that you are changing. It can be passed as an enumeration, and then you set and/or get the value directly from the configuration.
In this way, the callers in the C++ code will have much easier task to do, as it is only calling the UNO command, and the rest is done in the implementation of the UNO command.
For AdditionsDialog, the calling code is as simple as this in cui/source/options/optgdlg.cxx:
IMPL_STATIC_LINK_NOARG(OfaViewTabPage, OnMoreIconsClick, weld::Button&, void)
{
css::uno::Sequence<css::beans::PropertyValue> aArgs{ comphelper::makePropertyValue(
u"AdditionsTag"_ustr, u"Icons"_ustr) };
comphelper::dispatchCommand(u".uno:AdditionsDialog"_ustr, aArgs);
}
UNO dispatch commands can take parameters. As an example, take a look at .uno:NewDoc defined in sfx2/sdi/sfx.sdi:
SfxStringItem NewDoc SID_NEWDOC (SfxStringItem Region SID_TEMPLATE_REGIONNAME,SfxStringItem Name SID_TEMPLATE_NAME) [ ... ]
As you can see, there are two parameters:
SfxStringItem Region SID_TEMPLATE_REGIONNAME SfxStringItem Name SID_TEMPLATE_NAME
The SfxStringItem is the type, Region and Name are the names of the parameters, SID_TEMPLATE_REGIONNAME and SID_TEMPLATE_NAME are the constants used for passing parameters. The parameter type is not limited to numbers and strings, and it can be any defined class.
To set and get data for this parameters, you may use appropriate Set and Put functions. For example, this gets the parameter if set:
const SfxStringItem *pItem = rSet.GetItemIfSet( SID_TEMPLATE_REGIONNAME, false)
Or, this sets the data:
OUString sVal = u"test"_ustr; rSet.Put( SfxStringItem( SID_TEMPLATE_REGIONNAME, sVal ) );
To get to know better how to implement more complex UNO dispatch commands, you can refer to the implementation of the existing UNO commands to get idea about how they are implemented. You can see a comprehensive list of UNO commands here:
In my last post on Libreoffice I promised to talk about Writer changes once in a while, but then ... nothing ever happened. However, given that I had an annoying motorcycle accident in the meantime that turned out much more persistently annoying than originally thought, I think I have a bit of an excuse.
So ... what did happen? For one, I fixed quite a few regressions with my name on them, but ... is there much to talk about here? Mostly not: If you look at the fixes, they are often oneliners fixing something that seems rather obvious in retrospect. The more tricky question is: how did these get in in the first place? Its hard for me to say that, as the introducing commits are from even longer ago.
One thing is certain though: Often a unittest would have caught them, so whenever possible, I tried to create a reproducer adding such a test with the fix. To anyone writing bug reports: Creating minimal reproduction test is hugely valuable in this -- not just for finding the issue, but also as a starting point for a regression test. So if a bug bugs you and it is missing a minimal reproduction scenario, adding one is a great way to move this forward. Oh, and maybe verifying a bugfix, if someone provided a fix and the friendly bot say affected users are "encouraged to test the fix and report feedback".
While doing these fixes, I stumbled over Noel suggesting to speed up bookmarks in writer which is of course great, but I noticed that the code could be optimized a bit more as the bookmarks of a document are now sorted by their starting position (which was one of the first changes I made back on OpenOffice.org about more than a decade ago). Thus we can use bisectional search on the bookmarks here, which should be even faster. Now, it would be great if the discussion on this between Noel and me would available for others to learn from, wouldnt it? The cool thing is: it is.
All discussion happened on gerrit in the comments so if you want to learn about bookmark in Writer and how to maybe speed them up for documents that have a lot of them, that is a great starting point! Is there anything to add? Well maybe the following: Currently the bookmarks starting at the same position are currently not sorted. If one would sort them by their end position, the bisectional search could maybe cover even more? This would also remove one extra loop of logic and make the code simpler and easier to read.
The performance improvement is likely irrelevant -- esp. since there will be not that many documents with lots of bookmarks starting at the same position. The simpler code might be worth it though. So why wasnt it done?
It still can be tried in a follow-up, but speaking about regressions earlier: This has some obscure regression risk, because if we change the order of bookmarks starting at the same position from undefined to something ordered by the end position it might impact a lot of code using bookmarks. The function in question might actually be faster, but other functions (e.g. the inserting of new bookmarks) might actually be slower. So ... this is left as an exercise to the reader.
Comments? Feedback? Additions? Most welcome here on the fediverse !
Writer now has support for doing partial layout passes when LOK clients have pending events, which sometimes improves interactivity a lot.
This work is primarily for Collabora Online, but the feature is useful for any LOK clients.
I recently worked with a document that has relatively simple structure, but it has 300 pages, and most of the content is part of a numbered list. Pasting a simple string (like an URL) into the end of a paragraph resulted in a short, but annoying hang. It turns out we updated Writer's layout for all the 300 pages before the content was repainted on the single visible page. In theory, you could reorder events, so you first calculate the first page, you paint the first page, then you calculate the remaining 299 pages. Is this possible in practice? Let's try!
The relevant part of the test document is simple: just an empty numbered paragraph, so we can paste somewhere:
This is a good sample, because pasting into a numbered list requires invalidating all list items in that list, since possibly the paste operation created a new list item, and then the number portion has to be updated for all items in the rest of the list. So if you paste into a numbered list, you need to re-calculate the entire document if all the document is just a numbered list.
The first problem was that Writer tracks its visible area, but LOK needs two kinds of visible areas. The first kind decides if invalidations are interesting for part of the document area. LOK wants to get all invalidations, so in case we cache some document content in the client that is near the visible area, we need to know when to throw away that cache. On the other hand, we want to still track the actually visible viewport of the client, so we can prioritize visible vs hidden parts of the document. Writer in LOK mode thought that all parts of the document are a priority, but this could improved by taking the client's viewport into account.
The second problem was that even if Writer had two layout passes (first is synchronous, for the visible area; second is async, for the rest of the document), both passes were performed before allowing a LOK client to request tiles for the issued invalidations.
This is now solved by a new registerAnyInputCallback() API, which allows the LOK client to signal if
it has pending events (e.g. unprocessed callbacks, tiles to be painted) or it's OK for Writer layout
to finish its idle job first.
The end result for pasting a URL into this 300 pages document, when measuring end-to-end (from sending the paste command to getting the first updated tile) is a decrease in response time, from 963 ms to 14 ms.
If you would like to know a bit more about how this works, continue reading... :-)
As usual, the high-level problem was addressed by a series of small changes:
The tracking issue for this problem was cool#9735.
You can get a development edition of Collabora Online 24.04 and try it out yourself right now: try the development edition. Collabora intends to continue supporting and contributing to LibreOffice, the code is merged so we expect all of this work will be available in TDF's next release too (25.2).
When I translated one book about Python to Russian which contained many examples of Python code I though quite long how to highlight them in the normal text. For book writing I used LibreOffice Writer (of course) but Writer has no a standard tool for code highlighting.
So after some searching I found the LibreOffice extension - Code Highlighter 2. It is also available on our extension site. This extension makes code highlighting using Pygments Python library. There is support for many programming languages and many color styles for highlighting there.
The extension worked fine, but I didn't like that for highlighting I should manually select every code example in the text, then press some shortcut, then select another code example, etc...
I wrote an issue on the extension github page and after some discussions the extension author Jean-Marc Zambon implemented a new feature that allows to highlight all code example in the book in only one action using Paragraph style!
So my workflow in this case will be as follows:
Above you can see examples of the Code Highlighter work with some light and some dark styles.
by Roman Kuznetsov (noreply@blogger.com) at August 26, 2024 11:18 AM
In Collabora Online (for the normal mode of operation) we have a single server process (coolwsd) that spawns a separate process (kit) to load and manage each individual document. Each of those per-document kit processes runs in its own isolated environment. See architecture for details.
Each environment contains a minimal file system (ideally bind mounted from a template dir for speed, but linked/copied if not possible) that each kit chroots into, limiting its access to that subtree.
That chroot requires the CAP_SYS_CHROOT capability (and the desirable mount requires the CAP_SYS_ADMIN capability), and granting those capabilities to the coolforkit and coolmount binaries is a root privilege that, for typical deb/rpm packages, is done automatically at install time.
But it would be far more convenient not to require these capabilities to be set to do this isolation. They grant online more ability to affect its host system than it uses, we only want to mount dirs and chroot into dirs that belong to online and have no need or desire to make them available to any other process or user, and it's awkward, especially during development. to require root privileges to set these capabilities.
This scenario is not unique, and Linux provides namespaces, typically used by container implementations, to support achieving this. So recent work in Collabora Online leverages these namespaces to do its own layer of per-document kit isolation. (There's a good series of articles by Steve Ovens on the various namespaces, with the mount namespaces the most relevant one here.)
In essence, a user level process can create its own namespace in which it is apparently root from its own perspective, but as the original uid from the outside perspective and limited to operating on resources that the original uid is limited to accessing. So for each forkit, instead of requiring initial system capabilities and creating a system level bind mount we instead have no specific initial capabilities, enter a new namespace, unique to each forkit, in which that forkit becomes king of its own castle with apparent full capabilities, and can create bind mounts and chroot into its minimal file system.
Which is pretty magical to me as the whole existence of namespaces passed me by entirely without notice despite debuting over a decade ago.
Nothing is ever simple however, so some hurdles along the way.
Entering the namespace "requires that the calling process is not threaded" (man 2 unshare) which is not a problem for the normal use case in each kit, but did pose a problem for the test coolwsd does in advance to probe if there are working namespaces on the system in determine if it should operate kits in namespace mode or not. There it turned out that the Poco::Logger we use backups existing logs when it creates a new one, and then by default spawns a thread to compress the old log.
I initially had the vague notion that I could treat a namespace as a sort pseudo-sudo and switch back and forth freely between them, but that's not the model, typically it's a one way journey. But namespaces can be stacked instead with a namespace where the original uid is mapped to (apparent) root then containing another namespace where the user is mapped back to the original uid again. So we do that, each forkit enters its initial namespace and is mapped to root, does the mounts, enters another nested namespace mapped back to the original uid, chroots and drops all of the capabilities gained on entering a namespace. Which aligns the namespace mode with the expectations of the non-namespaces mode as to what effective uid the kit appears to run as.
The mounts that each forkit does are private to that forkit, so while in the non-namespace case the mounts are visible system-wide, in the namespace case the mounts are not visible either to other forkits or to the parent coolwsd. So how the document is provided by coolwsd to a child kit had to be adapted for the new mode of even less potential leakage between components.
There was a glitch in mounting, because when we bind mounts dirs from our system template we want them to be readonly, which requires the typical Linux 2 step process of mount and remount with readonly flags. This worked for the non namespace case, but failed for namespaces even though the initial mount succeeded. Here we had an extra flag of MS_NOATIME when remounting to potentially shave a little time off use of the kit jail, but in namespaces removing that option from the underlying system mount isn't permitted.
Despite that mount flag change giving working namespace-using kits directly inside toplevel OS, one of our lxc-using ci systems still refused to allow a readonly remount in a namespace to work. The catch here was that lxc is bundled with default apparmor rules which additionally restrict a readonly remount call to a certain set of arguments which our remount effort didn't match, so that had to be adjusted. Specifically the rather obscure MS_SILENT use.
Performance-wise, an unexpected (to me at least) side effect of using namespaces is that the coolwsd measurement of the time to spawn a forkit on my hardware has reduced from an average of 39.63ms per spawn to an average of an average of 6.15ms per spawn, which wasn't the primary goal but is a nice benefit.
Surveying distros where namespaces are available by default suggests:
RHEL/CENTOS
Debian
Ubuntu
Ubuntu 24.04 however, while supporting namespaces out of the box, has restricted namespaces via apparmor rules, which complicates things again so Collabora Online .deb packages install an apparmor profile to enable it to use namespaces out of the box.
Writer now has improved support for font fallback when you open a DOCX file that refers to fonts which are not available currently.
This work is primarily for Collabora Online, but the feature is fully available in desktop Writer as well.
Font embedding is meant to solve the problems around missing fonts, but you can also find documents with stub embedded fonts that are to be ignored and our code didn't have any sanity check on such fonts, leading to unexpected glyph-level fallbacks. Additionally, once font-level fallback happened, we didn't take the font style (e.g. sans vs serif) into account, which is expected to work when finding a good replacement for the missing font.
Here is how to the original rendering looked like:
Once the handler for the embedded fonts in ODT/DOCX was improved to ignore stub fonts where even basic glyphs were not available, the result was a bit more consistent, but still bad. Here is a different document to show the problem:
Note how now we used the same font, but the glyphs are always sans, not serif. So the final step was to import the font type from DOCX and consider that while deciding font fallback:
With this, we ignore stub embedded fonts from DOCX, we import the font type and in general font fallback on Linux takes the font type into account while deciding font fallback.
If you would like to know a bit more about how this works, continue reading... :-)
As usual, the high-level problem was addressed by a series of small changes:
You can get a development edition of Collabora Online 24.04 and try it out yourself right now: try the development edition. Collabora intends to continue supporting and contributing to LibreOffice, the code is merged so we expect all of this work will be available in TDF's next release too (24.8).
A while ago, Simon Phipps, member of the Board of Directors at The Document Foundation, shared the idea to introduce a peer-to-peer collaboration built in to desktop LibreOffice without the requirement for a cloud provider. This idea has received a lot of attention inside the organization and the design team has started to outline the project now.…
Earlier this month, we were pleased to sponsor the Libreoffice Technology Hackfest in Budapest, Hungary, and enjoyed meeting up with some of our fellow LibreOffice Technology hackers. Over two days, a dozen developers from Collabora Productivity and the wider community met up in the Eco Community Space to work on the LibreOffice codebase, and reap the benefits of spending time together.
A hackfest is an event where developers from multiple organisations meet each other, work on what they want and also more freely exchange ideas while being together in person. While having an international community working remotely on the codebase is excellent, there are still many benefits to more directly seeing what problems are being tackled by other developer sitting next to you; and this friendly environment allows building relationships that can then help even more in the future (even remotely).
As one attendee Miklos Vajna shared with us after the event, “It was really great to spend a couple of days with the other developers. I found it very helpful seeing what other people are working on, sharing ideas about the future feature possibilities, and especially enjoyed going out for a dinner with everyone in Budapest after a hard day’s work!”
For this reason, we were very pleased to sponsor this most recent meet up. Many thanks to all who joined us in Budapest, we look forward to seeing you soon at the next meeting!
If you would like to find out more about joining the Collabora Online or LibreOffice community, we would encourage you to join the Collabora Online Community Forum or have a look at the Collabora Online Github to learn about how to get started.
For more information about our upcoming events, and to learn where you could meet us next, do have a look at our events page.
Shortcuts are a major topic for user experience. Novices are advised to learn basic shortcuts beyond the famous Ctrl+C/X/V like Ctrl+1/2/3.. to quickly change the paragraph style to heading 1/2/3… in Writer. Once you have learned those combinations you never want to unlearn and to change the muscle memory.…
After resigning from the Board of Directors of TDF over the weekend, I hope I will again find more time to look into the technical details of LibreOffice Writer. I will also try to do my best to write some good article here about the depth of that application. While a text processor in itself is not that interesting anymore these days, the challenges of migrating that big old legacy code might be fascinating quite often. Hope to have you as a reader for that soon!
Comments? Feedback? Additions? Most welcome here on the fediverse !
LOWA is LibreOffice built with Emscripten as a Wasm executable that runs in the browser. Controlling that LibreOffice through UNO with JavaScript looks like a natural fit. Enter Embind, a mechanism to generate the binding glue between JavaScript and Wasm/C++.
As we will see, the Embind vs. UNO match is not perfect, but it kind-of gets the job done, at least for a first iteration.
To dive straight into technical matters, the UNO type system is mapped to JavaScript as follows. (If you would like to see some example code first, jump ahead to the Starting Points and come back here later for reference.)
BOOLEAN, depending on context and somewhat inconsistently maps to JavaScript Boolean and to JavaScript Number values 0 and 1. (The C/C++ representation of UNO BOOLEAN is sal_Bool, which is an alias for unsigned char, which Embind maps to JavaScript Number. So in places where we directly rely on Embind, like for the return value of a UNO interface method invocation, we get the Embind mapping to Number. But in places where we have more control, like for the JavaScript get method for a UNO ANY, we can be a bit more fancy and use a mapping to Boolean.)BYTE, SHORT, UNSIGNED SHORT, LONG, UNSIGNED LONG, FLOAT, and DOUBLE all map to JavaScript Number (with restricted value ranges for everything but UNO DOUBLE).HYPER and UNSIGNED HYPER both map to JavaScript BigInt (with restricted value ranges).CHAR and STRING both map to JavaScript String (with single UTF-16 code unit strings for UNO CHAR).TYPE maps to JavaScript Module.uno_Type objects. There are construction functions Module.uno_Type.Void, Module.uno_Type.Boolean, Module.uno_Type.Byte, Module.uno_Type.Short, Module.uno_Type.UnsignedShort, Module.uno_Type.Long, Module.uno_Type.UnsignedLong, Module.uno_Type.Hyper, Module.uno_Type.UnsignedHyper, Module.uno_Type.Float, Module.uno_Type.Double, Module.uno_Type.Char, Module.uno_Type.String, Module.uno_Type.Type, Module.uno_Type.Any, Module.uno_Type.Sequence, Module.uno_Type.Enum, Module.uno_Type.Struct, Module.uno_Type.Exception, and Module.uno_Type.Interface for representations of all the UNO TYPE values. The Module.uno_Type.Sequence construction function recursively takes a UNO TYPE argument for the component type, while the Module.uno_Type.Enum, Module.uno_Type.Struct, Module.uno_Type.Exception, and Module.uno_Type.Interface construction functions each take a string argument denoting the given type’s name in dotted notation (e.g., Module.uno_Type.Interface('com.sun.star.uno.XInterface')). Those JavaScript objects implement toString, which is also used for equality checks (e.g., type === 'com.sun.star.uno.XInterface').ANY maps to JavaScript Module.uno_Any objects. There is a constructor taking a UNO TYPE argument and a corresponding value (using an undefined value for UNO type VOID). Those JavaScript objects implement a method get that returns the JavaScript representation of the contained UNO value.Module.uno_Sequence_... objects. The problem is that Embind does not let us have a generic mapping to the C++ com::sun::star::uno::Sequence<T> class template; we can only have individual Embind mappings to specific class template instantiations. As a hack, for every UNO sequence type that appears somewhere in the LibreOffice UNO API, we generate a specific JavaScript Module.uno_Sequence_.... The naming is Module.uno_Sequence_boolean, Module.uno_Sequence_byte, Module.uno_Sequence_short, Module.uno_Sequence_unsigned_short, Module.uno_Sequence_long, Module.uno_Sequence_unsigned_long, Module.uno_Sequence_hyper, Module.uno_Sequence_unsigned_hyper, Module.uno_Sequence_float, Module.uno_Sequence_double, Module.uno_Sequence_char, Module.uno_Sequence_string, Module.uno_Sequence_type, and Module.uno_Sequence_any for the simple UNO component types; Module.uno_Sequence_... followed by the UNO type name in dollar-separated notation (e.g., Module.uno_Sequence_com$sun$star$uno$XInterface) for enum, struct, and interface component types; and Module.uno_SequenceN_..., with N greater than 1, for sequence component types (e.g., Module.uno_Sequence2_long for the UNO type “sequence of sequence of LONG“). That means that there currently is just no way to come up with e.g. a JavaScript representation of the UNO type “sequence of interface com.sun.star.frame.XDesktop“, as that sequence type happens to not be mentioned anywhere in the LibreOffice UNO API. (But for those sequence types that are used as interface method parameter or return types, corresponding JavaScript representations are provided. That should hopefully cover all relevant use cases for now; a future overhaul of this part of the mapping is likely.) These JavaScript sequence objects have two constructors, one taking a JavaScript array of member values (e.g., new Module.uno_Sequence_long([1, 2, 3])) and one taking a size and a Module.FromSize marker (as Emind does not allow to have multiple constructors with the same number of arguments) whose members will have default values (e.g., new Module.uno_Sequence_long(3, Module.FromSize)). Additional methods are resize (taking the new length as argument), size (returning the current length), get (taking an index as argument and returning the member at that index), and set (taking an index and a new member value as arguments). (The naming of those resize, size, get, and set methods is modelled after Embind’s emscripten::register_vector.)Module.uno_Type_... followed by the UNO type name in dollar-separated notation (e.g., Module.uno_Type_com$sun$star$uno$TypeClass).Module.uno_Type_... followed by the UNO type name in dollar-separated notation (e.g., Module.uno_Type_com$sun$star$beans$NamedValue, Module.uno_Type_com$sun$star$uno$Exception). Polymorphic UNO struct types face a similar issue to sequence types, in that Embind does not allow to directly map their corresponding C++ class templates. It would be possible to do a similar hack and add specific mappings for all instantiated polymorphic struct types that are mentioned anywhere in the LibreOffice UNO API, but that has not been implemented so far. (And, similar to sequence types, a future overhaul of this part of the mapping is likely.)Module.uno_Type_... followed by the UNO type name in dollar-separated notation (e.g., Module.uno_Type_com$sun$star$uno$XInterface). Null references are mapped to JavaScript null. The special com.sun.star.uno.XInterface UNO interface methods queryInterface, acquire, and release are not exposed to JavaScript client code.Module.uno_Function_...$$... followed by the service’s name in dollar-separated notation, followed by the constructor’s name set of by two dollar signs (e.g., Module.uno_Function_com$sun$star$beans$Introspection$$create). Like with other UNO language bindings, those functions take the com.sun.star.uno.XComponentContext as an additional first argument.Module.uno_Function_... followed by the singleton’s name in dollar-separated notation (e.g., Module.uno_Function_com$sun$star$frame$theDesktop). Like with other UNO language bindings, those functions take the com.sun.star.uno.XComponentContext as their (sole) argument.To make all this work, the Embind mapping of the LibreOffice UNO API needs to be set up first. This is done by a call to
const uno = init_unoembind_uno(Module);
which also returns a wrapper object uno that allows for more natural access to all the UNOIDL entities whose mappings use that dollar-separated notation: Instead of Module.uno_Type_com$sun$star$uno$XInterface one can write uno.com.sun.star.uno.XInterface, and a call to uno_Function_com$sun$star$beans$Introspection$$create(context) can be written as uno.com.sun.star.beans.Introspection.create(context). If you want to cut down on the common uno.com.sun.star prefix even further,
const css = uno.com.sun.star;
lets you reduce that to just css.uno.XInterface and css.beans.Introspection.create(context).
The starting points to access the LibreOffice UNO API from JavaScript are Module.getUnoComponentContext() (returning the central css.uno.XComponentContext, through which all the services and singletons are reachable) and a Module.getCurrentModelFromViewSh() convenience function (returning the css.frame.XModel of the currently showing document). The gitlab.com/allotropia/lowa-demos repository is a growing site of example code showing all of this in action.
Summing this up, here is some example code that iterates over all the paragraphs of a Writer document and gives each of them a random foreground text color:
const uno = init_unoembind_uno(Module);
const css = uno.com.sun.star;
const model = Module.getCurrentModelFromViewSh();
const document = css.text.XTextDocument.query(model);
const text = document.getText();
const access = css.container.XEnumerationAccess.query(text);
const paragraphs = access.createEnumeration();
while (paragraphs.hasMoreElements()) {
const paragraph = css.text.XTextRange.query(
paragraphs.nextElement().get());
const props = css.beans.XPropertySet.query(paragraph);
const color = new Module.uno_Any(
Module.uno_Type.Long(),
Math.floor(Math.random() * 0xFFFFFF));
props.setPropertyValue("CharColor", color);
color.delete();
}
Embind is built on the concept that whatever C++ objects you reference from JavaScript, you manually and explicitly need to declare those references as no longer needed once you are done, by calling delete() methods on the corresponding JavaScript objects. (Or else, you risk memory leaks.) This can be quite cumbersome and would pollute the code with tons of such delete() calls. Luckily, JavaScript grew a FinalizationRegistry mechanism that allows code to be executed when the JavaScript garbage collector finds an objet to be unused and reclaims it. (And that code can thus transparently do the delete() call for us.) Embind implements such FinalizationRegistry-support for some types (those that are modelled based on some “smart poiner”) but not for others.
That means that (besides all the primitive types) JavaScript mappings of UNO string, type, enums, sequences, exceptions, and interfaces all do not need explicit delete() calls, while the mappings of UNO any and UNO sequences, and the various Module.uno_InOutParam_... all need explicit delete() calls.
Even though we expect that the JavaScript engines that we target do support the FinalizationRegistry mechanism, Embind is prepared to work with older engines that do not support it. Therefore, whenever an object is transparently cleaned up, Embind logs a somewhat unhelpful warning to the JavaScript console, stating that it “found a leaked C++ instance” (and that it will “free it automatically”).
For each UNO interface type there is a JavaScript class method query taking any JavaScript UNO object reference (in the form of the common com.sun.star.uno.XInterface base interface) as argument (and internally using UNO’s queryInterface to obtain either a correspondingly-typed reference to that object, or a null reference). There is also a JavaScript helper function Module.sameUnoObject, taking two interface references as arguments and returning whether both are references to the same UNO object.
UNO interface methods taking out or in-out parameters need special treatment. There are Module.uno_InOutParam_... wrappers (with a val property carrying the actual value) that need to be set up and passed into the UNO method. Such wrappers have a constructor taking no arguments (creating a dummy object, suitable for pure out parameters) and another constructor taking one argument of the wrapped type (suitable for in-out parameters). For example, to read data from a com.sun.star.io.XInputStream:
const stream = ...;
const input = css.io.XInputStream.query(stream);
if (input) {
const data = new Module.uno_InOutParam_sequence_byte;
input.readBytes(data, 100);
for (let i = 0; i != data.val.size(); ++i) {
console.log('read byte ' + data.val.get(i));
}
data.delete();
}
Support for throwing and catching exceptions between JavaScript and C++ is rather rough: JavaScript code can use try ... catch (e) ... to catch a UNO exception thrown from C++, but all the information it can get about that exception is e.name stating the exception’s type. Also, for technical reasons, the catch block needs some increment– and decrementExceptionRefcount boilerplate,
try {
...
} catch (e) {
incrementExceptionRefcount(e);
//TODO, needed when building with JS-based -fexceptions,
// see
// <https://github.com/emscripten-core/emscripten/issues/17115>
// "[EH] Fix inconsistency of refcounting in Emscripten
// EH vs. Wasm EH"
if (e.name === 'com::sun::star::uno::RuntimeException') {
...
}
decrementExceptionRefcount(e);
}
To throw UNO exceptions from JavaScript code, there is a helper function Module.throwUnoException that takes a UNO (exception) type and an instance of that type:
Module.throwUnoException(
Module.uno_Type.Exception(
'com.sun.star.lang.IllegalArgumentException'),
{Message: 'bad argument', Context: null,
ArgumentPosition: 0});
The JavaSript-to-UNO binding is a full mapping, so you can even implement new UNO objects in JavaScript. This requires quite some boilerplate, though. For example, the below obj implements com.sun.star.lang.XTypeProvider and com.sun.star.task.XJob:
const obj = {
// Implementation details:
implRefcount: 0,
implTypes: new Module.uno_Sequence_type([
Module.uno_Type.Interface(
'com.sun.star.lang.XTypeProvider'),
Module.uno_Type.Interface(
'com.sun.star.task.XJob')]),
implImplementationId: new Module.uno_Sequence_byte([]),
// The methods of XInterface:
queryInterface(type) {
if (type == 'com.sun.star.uno.XInterface') {
return new Module.uno_Any(
type,
css.uno.XInterface.reference(
this.implXTypeProvider));
} else if (type == 'com.sun.star.lang.XTypeProvider') {
return new Module.uno_Any(
type,
css.lang.XTypeProvider.reference(
this.implXTypeProvider));
} else if (type == 'com.sun.star.task.XJob') {
return new Module.uno_Any(
type,
css.task.XJob.reference(
this.implXJob));
} else {
return new Module.uno_Any(
Module.uno_Type.Void(), undefined);
}
},
acquire() { ++this.implRefcount; },
release() {
if (--this.implRefcount === 0) {
this.implXTypeProvider.delete();
this.implXJob.delete();
this.implTypes.delete();
this.implImplementationId.delete();
}
},
// The methods of XTypeProvider:
getTypes() { return this.implTypes; },
getImplementationId() {
return this.implImplementationId;
},
// The methods of XJob:
execute(args) {
if (args.size() !== 1 || args.get(0).Name !== 'name') {
Module.throwUnoException(
Module.uno_Type.Exception(
'com.sun.star.lang.IllegalArgumentException'),
{Message: 'bad args', Context: null,
ArgumentPosition: 0});
}
console.log(
'Hello, my name is ' + args.get(0).Value.get());
return new Module.uno_Any(
Module.uno_Type.Void(), undefined);
},
};
obj.implXTypeProvider
= css.lang.XTypeProvider.implement(obj);
obj.implXJob
= css.task.XJob.implement(obj);
obj.acquire();
// ... pass obj to UNO here ...
obj.release();
LibreOffice 24.2 Writer Guide has been published. It is available for free download (PDF, ODT) from the Documentation page on the LibreOffice website.
Printed copies can be purchased from the Documentation Team’s store at Lulu.com.
The numbering system for LibreOffice releases has changed to year.month. LibreOffice will continue to be updated twice a year, but current plans are to update each user guide only once a year.
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