b129867306
Even if the symbol font bit isn't set, the oox import route lacks the ability to state that the bullet font is a font of symbol encoding. If the font is not available on the system we go into fallback logic to state that famous symbol fonts are in symbol encoding. But there is a symbol font on mac so its not unknown and that doesn't happen. And the mac symbol font is not actually in symbol encoding (seeing as it's all rearranged into the correct unicode positions) so the recode logic is skipped in this special case to map the microsoft/adobe private use area chars to the modern code points where they were moved in the apple font. I guess one alternative possible solution is to lookup all the fonts used in a openxml doc using the fonttable stream where the charset info is available. But seeing as it should only affect one particular font lets just move the encoder test outside the issymbol block. Change-Id: Ic5bd3ec15c8d8d99e2cab0fb67cc4bc33081c756 |
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vcl.android.component | ||
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vcl.macosx.component | ||
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vcl.windows.component | ||
WinResTarget_vcl.mk |
Visual Components Library is responsible for the widgets (windowing, buttons, controls, file-pickers etc.) operating system abstraction, including basic rendering (e.g. the output device). VCL provides a graphical toolkit similar to gtk+, Qt, SWING etc. source/ + the main cross-platform chunk of source inc/ + cross-platform abstraction headers vcl/ + public headers ("public" to the rest of LibreOffice, that is) generic/ + shared helper code for *some* of the backends, actually built into vcl. headless/ + a backend renderer that draws to bitmaps android/ + Android backend (work in progress, does work to some extent) aqua/ + OS X backend ios/ + iOS backend (work in progres, does not work, needs re-think and re-write) win/ + Windows backend unx/ + X11 backend and its sub-platforms plugadapt/ + pluggable framework to select correct unx backend gtk/ + GTK2 support gtk3/ + GTK3.2+ support kde/ + KDE3 support kde4/ + KDE4 support generic/ + raw X11 support How the platform abstraction works + InitVCL calls 'CreateSalInstance' + ths is implemented by the compiled-in platform backend + it stores various bits of global state in the 'SalData' (inc/saldatabasic.hxx) structure but: + the SalInstance vtable is the primary outward facing gateway API for platform backends + It is a factory for: SalFrames, SalVirtualDevices, SalPrinters, Timers, the SolarMutexe, 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). == 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 documentation parsing: wmf/emf filter --> GDI metafile with emf+ in commments --> 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). intemediary 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. fortunatelly 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.