From 267c6f2ac71f92999e969232431ba04678e7437e Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Mon, 15 Apr 2024 07:54:39 +0200 Subject: Adding upstream version 4:24.2.0. Signed-off-by: Daniel Baumann --- vcl/README.md | 264 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 264 insertions(+) create mode 100644 vcl/README.md (limited to 'vcl/README.md') diff --git a/vcl/README.md b/vcl/README.md new file mode 100644 index 0000000000..c6e436aa48 --- /dev/null +++ b/vcl/README.md @@ -0,0 +1,264 @@ +# Visual Class Library (VCL) + +Visual Class Library (VCL) is responsible for the widgets (windowing, buttons, controls, +file-pickers etc.), operating system abstraction, including basic rendering (e.g. the output device). + +It should not be confused with Borland's Visual Component Library, which is entirely unrelated. + +VCL provides a graphical toolkit similar to gtk+, Qt, SWING etc. + ++ source/ + + the main cross-platform chunk of source + ++ inc/ + + cross-platform abstraction headers + ++ headless/ + + a backend renderer that draws to bitmaps + ++ android/ + + Android backend + ++ osx/ + + macOS backend + ++ ios/ + + iOS backend + ++ quartz/ + + code common to macOS and iOS + ++ win/ + + Windows backend + ++ qt5/ + + Qt5 + ++ qt6/ + + Qt6 + ++ unx/ + + X11 backend and its sub-platforms + + gtk3/ + + GTK3 support + + gtk4/ + + GTK4 support (experimental) + + kf5/ + + KF5 support (based on qt5 VCL plugin mentioned above) + + kf6 + + KF6 support (based on qt6 VCL plugin mentioned above) + + gtk3_kde5/ + + GTK3 support with KDE5 file pickers (alternative to native kf5 one) + + generic/ + + raw X11 support + + + dtrans/ + + "data transfer" - clipboard handling + + http://stackoverflow.com/questions/3261379/getting-html-source-or-rich-text-from-the-x-clipboard + for tips how to show the current content of the + clipboard + + ++ How the platform abstraction works + + + InitVCL calls 'CreateSalInstance' + + this is implemented by the compiled platform backends + + the SalInstance vtable is the primary outward facing gateway + API for platform backends + + It is a factory for: + SalFrames, SalVirtualDevices, SalPrinters, + Timers, the SolarMutex, Drag&Drop and other + objects, as well as the primary event loop wrapper. + +Note: references to "SV" in the code mean StarView, which was a +portable C++ class library for GUIs, with very old roots, that was +developed by StarDivision. Nowadays it is not used by anything except +LibreOffice (and OpenOffice). + +"svp" stands for "StarView Plugin". + +## SalData implementations + +Each backend must provide an implementation of the SalData class. There is no +defined interface, so feel free to implement whatever suits your platform. + +If your platform does font handling based on Freetype and Fontconfig, it's +highly recommended to use GenericUnixSalData as the base class; there isn't +really much *nix stuff in it. + +Currently Windows, iOS and MacOSX have independent SalData implementations. + +## COM Threading + +The way COM is used in LO generally: +- vcl puts main thread into Single-threaded Apartment (STA) +- oslWorkerWrapperFunction() puts every thread spawned via `oslCreateThread()` + into MTA (free-threaded) + +## GDIMetafile + +GDIMetafile is a vector drawing representation that corresponds directly +to the SVM (StarView Metafile) format; it is extremely important as +an intermediate format in all sorts of drawing and printing operations. + +There is a class `MetafileXmlDump` in `include/vcl/mtfxmldump.hxx` that +can store a GDIMetafile as XML, which makes debugging much easier +since you can just use "diff" to see changes. + +## EMF+ + +emf+ is vector file format used by MSO and is successor of wmf and +emf formats. see +http://msdn.microsoft.com/en-us/library/cc230724.aspx for +documentation. note that we didn't have this documentation from +start, so part of the code predates to the time when we had guessed +some parts and can be enhanced today. there also still many thing not +complete + +emf+ is handled a bit differently compared to original emf/wmf files, +because GDIMetafile is missing features we need (mostly related to +transparency, argb colors, etc.) + +emf/wmf is translated to GDIMetafile in import filter +`vcl/source/filter/wmf` and so special handling ends here + +emf+ is encapsulated into GDIMetafile inside comment records and +parsed/rendered later, when it reaches cppcanvas. It is parsed and +rendered in cppcanvas/source/mtfrenderer. also note that there are +emf+-only and emf+-dual files. dual files contains both types of +records (emf and emf+) for rendering the images. these can used also +in applications which don't know emf+. in that case we must ignore +emf records and use emf+ for rendering. for more details see +the documentation. + +## Parsing + + wmf/emf filter --> GDI metafile with emf+ in comments --> cppcanvas metafile renderer + +lately the GDIMetafile rendering path changed which also influenced +emf+ rendering. now many things happen in drawing layer, where +GDIMetafile is translated into drawing layer primitives. for +metafiles with emf+ we let the mtfrenderer render them into bitmap +(with transparency) and use this bitmap in drawinlayer. cleaner +solution for current state would be to extend the drawing layer for +missing features and move parsing into drawing layer (might be quite +a lot of work). intermediary enhancement would be to know better the +needed size/resolution of the bitmap, before we render emf+ into +bitmap in drawing layer. Thorsten is working on the same problem with +svg rendering, so hopefully his approach could be extended for emf+ as +well. the places in drawing layer where we use canvas mtfrenderer to +render into bitmaps can be found when you grep for GetUseCanvas. also +look at vcl/source/gdi/gdimetafile.cxx where you can look for +UseCanvas again. moving the parsing into drawinglayer might also have +nice side effect for emf+-dual metafiles. in case the emf+ records +are broken, it would be easier to use the duplicit emf +rendering. fortunately we didn't run into such a broken emf+ file +yet. but there were already few cases where we first though that the +problem might be because of broken emf+ part. so far it always turned +out to be another problem. + +## Rendering + + before + + vcl --> cppcanvas metafile renderer --> vcl + + now + + drawing layer --> vcl --> cppcanvas metafile renderer --> vcl --> drawing layer + +another interesting part is actual rendering into canvas bitmap and +using that bitmap later in code using vcl API. + +EMF+ implementation has some extensive logging, best if you do a dbgutil +build, and then + + export SAL_LOG=+INFO.cppcanvas.emf+INFO.vcl.emf + +before running LibreOffice; it will give you lots of useful hints. + +You can also fallback to EMF (from EMF+) rendering via + + export EMF_PLUS_DISABLE=1 + + +## Printing/PDF Export + +Printing from Writer works like this: + +1) individual pages print by passing an appropriate OutputDevice to XRenderable +2) in drawinglayer, a VclMetafileProcessor2D is used to record everything on + the page (because the OutputDevice has been set up to record a GDIMetaFile) +3) the pages' GDIMetaFiles are converted to PDF by the vcl::PDFWriter + in `vcl/source/gdi/pdfwriter*` + +Creating the ODF thumbnail for the first page works as above except step 3 is: + +3) the GDIMetaFile is replayed to create the thumbnail + +On-screen display differs in step 1 and 2: + +1) the VCL Window gets invalidated somehow and paints itself +2) in drawinglayer, a `VclPixelProcessor2D` is used to display the content + + +### Debugging PDF export + +Debugging the PDF export becomes much easier when +compression is disabled (so the PDF file is directly readable) and +the MARK function puts comments into the PDF file about which method +generated the following PDF content. + +The compression can be disabled even using an env. var: + + export VCL_DEBUG_DISABLE_PDFCOMPRESSION=1 + +To de-compress the contents of a PDF file written by a release build or +other programs, use the "pdfunzip" tool: + + bin/run pdfunzip input.pdf output.pdf + +### SolarMutexGuard + +The solar mutex is the "big kernel lock" of LibreOffice, a global one. It's a +recursive mutex, so it's allowed to take the lock on the same thread multiple +times, and only the last unlock will actually release the mutex. + +UNO methods on components can be called from multiple threads, while the +majority of the codebase is not prepared for multi-threading. One way to get +around this mismatch is to create a SolarMutexGuard instance at the start of +each & every UNO method implementation, but only when it is necessary: + +- Only acquire the SolarMutex if you actually need it (e.g., not in functions + that return static information). + +- Only around the code that actually needs it (i.e., never call out with it + locked). + +This way you ensure that code (not prepared for multithreading) is still +executed only on a single thread. + +In case you expect that your caller takes the solar mutex, then you can use +the `DBG_TESTSOLARMUTEX()` macro to assert that in dbgutil builds. + +Event listeners are a special (but frequent) case of the "never call out with +a mutex (`SolarMutex` or other) locked" fundamental rule: + +- UNO methods can be called from multiple threads, so most implementations + take the solar mutex as their first action when necessary. + +- This can be problematic if later calling out (an event handler is called), + where the called function may be an UNO method implementation as well and + may be invoked on a different thread. + +- So we try to not own the solar mutex, whenever we call out (invoke event + listeners). + +In short, never hold any mutex unless necessary, especially not when calling +out. + +## Read More +* [Environment variables in VCL](README.vars.md) +* [GDIMetaFile class](README.GDIMetaFile.md) +* [Understanding transitional VCL lifecycle](README.lifecycle.md) +* [VCL scheduler](README.scheduler.md) -- cgit v1.2.3