Benefits:
* Much simpler code.
* Handles the entire TTF spec, not just a small subset that
only really worked well on Windows fonts.
* Handles all character sets as well as accented characters.
* Much faster parsing, since Freetype lazily loads and
caches glyphs.
* Support for basically every kind of font that was invented,
not just TTF.
Note that OpenType features, e.g. ligatures, are not yet supported.
This means that Arabic and Devanagari scripts, among others, will
not be rendered in their proper form.
RTL scripts are not supported either, neither in TTF nor in
the text window. Adding RTL support is comparatively easy, but
given that Arabic would not be legibly rendered anyway, this is not
done so far.
It works. Mostly. Sort of. Only on Windows fonts. Sometimes it
randomly refuses to render glyphs (try `х`, that's not a latin ex).
I'm not really sure why, the logic seems right.
Why do we have a homegrown TTF parser anyway? It's kind of awful.
It breaks on any slightly unusual input. It plows through UTF-16BE
font names like a nuclear-powered steamroller. It outright ignores
composite glyphs (is that why it's broken this time?). The kerning
is seizure-inducing. It ignores any characters outside BMP by design.
Maybe we should just replace it with freetype.
This removes the arbitrary 64 byte restriction (which effectively
limits us to as little as 16 Unicode characters with CJK encodings),
makes classes smaller, and is easier to use.
As a consequence of making the length of all ex-NameStr fields
unbounded, all functions that returned a buffer derived from those
were changed to return std::string. Then, functions that are
contextually similar to the ones described above were changed
to return std::string. Then, functions that now happened to mostly
take an std::string argument converted to a C string were changed
to accept std::string.
This has produced a bit of churn, but is probably for the better.
After this commit, SolveSpace can robustly handle non-ASCII filenames
on every OS. Additionally, on Windows, filenames longer than 260
characeters can be used, and files on network shares can be opened
directly, without mounting them as a network drive.
After this commit, SolveSpace deals with paths as follows:
* Paths are generally treated as opaque platform-specific strings.
This helps on Linux, because paths on Linux don't have any
specific encoding and it helps to avoid any operations on them.
* The UI in some places wants to get a basename. In this case,
the newly introduced PATH_SEP is used. This allows to treat
backslash as a regular character, which it is on Linux and OS X.
* The only place where any nontrivial operations on paths are
performed is the g->impFile/impFileRel logic.
Specifically, when saved, g->impFile always contains an absolute
path with separators of the current platform, and g->impFileRel
always contains a relative path with UNIX separators. This allows
to treat backslash as a regular character.
Old files will contain g->impFileRel with Windows separators;
these are detected by looking for a drive letter in g->impFile
and in that case mapping Windows separators to UNIX ones.
There is no need to treat UNIX separators (forward slashes) in
any special way on Windows because there is no way on Windows,
not even via UNC paths, to create or address a directory entry
with a forward slash in its name.
What do we gain from this? Several things.
* First, usage of PATH_MAX (the POSIX constant) is eliminated.
PATH_MAX is actually a lie; Linux and OS X (and probably other BSDs
too) do not have an actual path length limit. Linux claims 4096,
OS X claims 1024, but it is trivial to construct paths that are
longer.
* Second, while Windows does enforce a limit of MAX_PATH (the Win32
constant) for its ASCII functions, the Unicode variants, when
used with UNC paths, do not have this restriction.
The capability to use UNC paths is useful by itself, as it allows
to access files on network shares directly.
* Third, representing paths as std::string will make it easier to
interoperate with *W WinAPI functions later.
The main benefit is that std::swap will ensure that the type
of arguments is copy-constructible and move-constructible.
It is more concise as well.
When min and max are defined as macros, they will conflict
with STL header files included by other C++ libraries;
in this case STL will #undef any other definition.
The SolveSpace top-level directory was getting a bit cluttered, so
following the example of numerous other free-software projects, we move the
main application source into a subdirectory and adjust the build systems
accordingly.
Also, got rid of the obj/ directory in favor of creating it on the fly in
Makefile.msvc.
Peter Barfuss
whitequark
Daniel Richard G