LASTEST CHANGES - 14-apr-2000 - fixed a bug in the TrueType glyph loader that prevented the correct loading of some CJK glyphs in mingli.ttf - improved the standard Type 1 hinter in "src/type1" - fixed two bugs in the experimental Type 1 driver in "src/type1z" to handle the new XFree86 4.0 fonts (and a few other ones..) - the smooth renderer is now complete and supports sub-banding to render large glyphs at high speed. However, it is still located in "demos/src/ftgrays.c" and should move to the library itself in the next beta.. NOTE: The smooth renderer doesn't compile in stand-alone mode anymore, but this should be fixed RSN.. - introduced convenience functions to more easily deal with glyph images, see "include/ftglyph.h" for more details, as well as the new demo program named "demos/src/ftstring.c" that demonstrates its use - implemented FT_LOAD_NO_RECURSE in both the TrueType and Type 1 drivers (this is required by the auto-hinter to improve its results). - changed the raster interface, in order to allow client applications to provide their own span-drawing callbacks. However, only the smooth renderer supports this. See "FT_Raster_Params" in the file "include/ftimage.h" - fixed a small bug in FT_MulFix that caused incorrect transform computation !! - Note: The tutorial is out-of-date, grumpf.. :-( ================================================================================ OLD CHANGES - 12-mar-2000 - changed the layout of configuration files : now, all ANSI configuration files are located in "freetype2/config". System-specific over-rides can be placed in "freetype2/config/". - moved all configuration macros to "config/ftoption.h" - improvements in the Type 1 driver with AFM support - changed the fields in the FT_Outline structure : the old "flags" array is re-named "tags", while all ancient flags are encoded into a single unsigned int named "flags". - introduced new flags in FT_Outline.flags (see ft_outline_.... enums in "ftimage.h"). - changed outline functions to "FT_Outline_" syntax - added a smooth anti-alias renderer to the demonstration programs - added Mac graphics driver (thanks Just) - FT_Open_Face changed in order to received a pointer to a FT_Open_Args descriptor.. - various cleanups, a few more API functions implemented (see FT_Attach_File) - updated some docs ================================================================================ OLD CHANGES - 22-feb-2000 - introduced the "psnames" module. It is used to: o convert a Postscript glyph name into the equivalent Unicode character code (used by the Type 1 driver(s) to synthetize on the fly a Unicode charmap). o provide an interface to retrieve the Postscript names of the Macintosh, Adobe Standard & Adobe Expert character codes. (the Macintosh names are used by the SFNT-module postscript names support routines, while the other two tables are used by the Type 1 driver(s)). - introduced the "type1z" alternate Type 1 driver. This is a (still experimental) driver for the Type 1 format that will ultimately replace the one in "src/type1". It uses pattern matching to load data from the font, instead of a finite state analyzer. It works much better than the "old" driver with "broken" fonts. It is also much smaller (under 15 Kb). - the Type 1 drivers (both in "src/type1" and "src/type1z") are nearly complete. They both provide automatic Unicode charmap synthesis through the "psnames" module. No re-encoding vector is needed. (note that they still leak memory due to some code missing, and I'm getting lazy). Trivial AFM support has been added to read kerning information but wasn't exactly tested as it should ;-) - The TrueType glyph loader has been seriously rewritten (see the file "src/truetype/ttgload.c". It is now much, much simpler as well as easier to read, maintain and understand :-) Preliminary versions introduced a memory leak that has been reported by Jack Davis, and is now fixed.. - introduced the new "ft_glyph_format_plotter", used to represent stroked outlines like Windows "Vector" fonts, and certain Type 1 fonts like "Hershey". The corresponding raster will be written soon. - FT_New_Memory_Face is gone. Likewise, FT_Open_Face has a new interface that uses a structure to describe the input stream, the driver (if required), etc.. TODO - Write FT_Get_Glyph_Bitmap and FT_Load_Glyph_Bitmap - Add a function like FT_Load_Character( face, char_code, load_flags ) that would really embbed a call to FT_Get_Char_Index then FT_Load_Glyph to ease developer's work. - Update the tutorial !! - consider adding support for Multiple Master fonts in the Type 1 drivers. - Test the AFM routines of the Type 1 drivers to check that kerning information is returned correctly. - write a decent auto-gridding component !! We need this to release FreeType 2.0 gold ! ----- less urgent needs : ---------- - add a CFF/Type2 driver - add a BDF driver - add a FNT/PCF/HBF driver - add a Speedo driver from the X11 sources ============================================================================== OLDER CHANGES - 27-jan-2000 - updated the "sfnt" module interface to allow several SFNT-based drivers to co-exist peacefully - updated the "T1_Face" type to better separate Postscript font content from the rest of the FT_Face structure. Might be used later by the CFF/Type2 driver.. - added an experimental replacement Type 1 driver featuring advanced (and speedy) pattern matching to retrieve the data from postscript fonts. - very minor changes in the implementation of FT_Set_Char_Size and FT_Set_Pixel_Sizes (they now implement default to ligthen the font driver's code). ============================================================================= OLD MESSAGE This file summarizes the changes that occured since the last "beta" of FreeType 2. Because the list is important, it has been divided into separate sections: Table Of Contents: I High-Level Interface (easier !) II Directory Structure III Glyph Image Formats IV Build System V Portability VI Font Drivers ----------------------------------------------------------------------------------------- High-Level Interface : The high-level API has been considerably simplified. Here is how : - resource objects have disappeared. this means that face objects can now be created with a single function call (see FT_New_Face and FT_Open_Face) - when calling either FT_New_Face & FT_Open_Face, a size object and a glyph slot object are automatically created for the face, and can be accessed through "face->glyph" and "face->size" if one really needs to. In most cases, there's no need to call FT_New_Size or FT_New_Glyph. - similarly, FT_Load_Glyph now only takes a "face" argument (instead of a glyph slot and a size). Also, it's "result" parameter is gone, as the glyph image type is returned in the field "face->glyph.format" - the list of available charmaps is directly accessible through "face->charmaps", counting "face->num_charmaps" elements. Each charmap has an 'encoding' field which specifies which known encoding it deals with. Valid values are, for example : ft_encoding_unicode (for ASCII, Latin-1 and Unicode) ft_encoding_apple_roman ft_encoding_sjis ft_encoding_adobe_standard ft_encoding_adobe_expert other values may be added in the future. Each charmap still holds its "platform_id" and "encoding_id" values in case the encoding is too exotic for the current library ----------------------------------------------------------------------------------------- Directory Structure: Should seem obvious to most of you: freetype/ config/ -- configuration sub-makefiles ansi/ unix/ -- platform-specific configuration files win32/ os2/ msdos/ include/ -- public header files, those to be included directly by client apps src/ -- sources of the library base/ -- the base layer sfnt/ -- the sfnt "driver" (see the drivers section below) truetype/ -- the truetype driver type1/ -- the type1 driver shared/ -- some header files shared between drivers demos/ -- demos/tools docs/ -- documentation (a bit empty for now) ----------------------------------------------------------------------------------------- Glyph Image Formats : Drivers are now able to register new glyph image formats within the library. For now, the base layer supports of course bitmaps and vector outlines, but one could imagine something different like colored bitmaps, bi-color vectors or wathever else (Metafonts anyone ??). See the file `include/ftimage.h'. Note also that the type FT_Raster_Map is gone, and is now replaced by FT_Bitmap, which should encompass all known bitmap types. Each new image format must provide at least one "raster", i.e. a module capable of transforming the glyph image into a bitmap. It's also possible to change the default raster used for a given glyph image format. The default outline scan-converter now uses 128 levels of grays by default, which tends to smooth many things. Note that the demo programs have been updated significantly in order to display these.. ----------------------------------------------------------------------------------------- Build system : You still need GNU Make to build the library. The build system has been very seriously re-vamped in order to provide things like : - automatic host platform detection (reverting to 'config/ansi' if it is not detected, with pseudo-standard compilation flags) - the ability to compile from the Makefiles with very different and exotic compilers. Note that linking the library can be difficult for some platforms. For example, the file `config/win32/lcclib.bat' is invoked by the build system to create the ".lib" file with LCC-Win32 because its librarian has too many flaws to be invoked directly from the Makefile. Here's how it works : - the first time you type `make', the build system runs a series of sub-makefiles in order to detect your host platform. It then dumps what it found, and creates a file called `config.mk' in the current directory. This is a sub-Makefile used to define many important Make variables used to build the library. - the second time, the build system detects the `config.mk' then use it to build the library. All object files go into 'obj' by default, as well as the library file, but this can easily be changed. Note that you can run "make setup" to force another host platform detection even if a `config.mk' is present in the current directory. Another solution is simply to delete the file, then re-run make. Finally, the default compiler for all platforms is gcc (for now, this will hopefully changed in the future). You can however specify a different compiler by specifying it after the 'setup' target as in : gnumake setup lcc on Win32 to use the LCC compiler gnumake setup visualc on Win32 to use Visual C++ See the file `config//detect.mk' for a list of supported compilers for your platforms. It should be relatively easy to write new detection rules files and config.mk.. Finally, to build the demo programs, go to `demos' and launch GNU Make, it will use the `config.mk' in the top directory to build the test programs.. ----------------------------------------------------------------------------------------- Portability : In the previous beta, a single FT_System object was used to encompass all low-level operations like thread synchronisation, memory management and i/o access. This has been greatly simplified : - thread synchronisation has been dropped, for the simple reason that the library is already re-entrant, and that if you really need two threads accessing the same FT_Library, you should really synchronize access to it yourself with a simple mutex. - memory management is performed through a very simple object called "FT_Memory", which really is a table containing a table of pointers to functions like malloc, realloc and free as well as some user data (closure). - resources have disappeared (they created more problems than they solved), and i/o management have been simplified greatly as a result. Streams are defined through FT_Stream objects, which can be either memory-based or disk-based. Note that each face has its own stream, which is closed only when the face object is destroyed. Hence, a function like TT_Flush_Face in 1.x cannot be directly supported. However, if you really need something like this, you can easily tailor your own streams to achieve the same feature at a lower level (and use FT_Open_Face instead of FT_New_Face to create the face). See the file "include/ftsystem.h" for more details, as well as the implementations found in "config/unix" and "config/ansi". ----------------------------------------------------------------------------------------- Font Drivers : The Font Driver interface has been modified in order to support extensions & versioning. The list of the font drivers that are statically linked to the library at compile time is managed through a new configuration file called `config//ftmodule.h'. This file is autogenerated when invoking `make modules'. This target will parse all sub-directories of 'src', looking for a "module.mk" rules file, used to describe the driver to the build system. Hence, one should call `make modules' each time a font driver is added or removed from the `src' directory. Finally, this version provides a "pseudo-driver" in `src/sfnt'. This driver doesn't support font files directly, but provides services used by all TrueType-like font drivers. Hence, its code is shared between the TrueType & OpenType font formats, and possibly more formats to come if we're lucky.. ----------------------------------------------------------------------------------------- Extensions support : The extensions support is inspired by the one found in 1.x. Now, each font driver has its own "extension registry", which lists which extensions are available for the font faces managed by the driver. Extension ids are now strings, rather than 4-byte tags, as this is usually more readable.. Each extension has: - some data, associated to each face object - an interface (table of function pointers) An extension that is format-specific should simply register itself to the correct font driver. Here is some example code: // Registering an extensions // FT_Error FT_Init_XXXX_Extension( FT_Library library ) { FT_DriverInterface* tt_driver; driver = FT_Get_Driver( library, "truetype" ); if (!driver) return FT_Err_Unimplemented_Feature; return FT_Register_Extension( driver, &extension_class ); } // Implementing the extensions // FT_Error FT_Proceed_Extension_XXX( FT_Face face ) { FT_XXX_Extension ext; FT_XXX_Extension_Interface ext_interface; ext = FT_Get_Extension( face, "extensionid", &ext_interface ); if (!ext) return error; return ext_interface->do_it(ext); }