These files are Markdown-ified versions of the following wiki pages: * https://wiki.gnome.org/Projects/GLib/CompilerRequirements * https://wiki.gnome.org/Projects/GLib/SupportedPlatforms Keeping the files in version control with the rest of the documentation means they should be easier to find, and easier to remember to keep up to date. They have not been modified other than to change to Markdown and tweak the formatting. Content updates to them will be done in future commits. Signed-off-by: Philip Withnall <pwithnall@endlessos.org>
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Toolchain/Compiler requirements
GLib requires a toolchain that supports C99.
GLib contains some fall back code that allows supporting toolchains that are not fully C99-compatible.
GLib makes some assumptions about features of the C library and C preprocessor, compiler and linker that may go beyond what C99 mandates. We will use features beyond C99 if they are substantially useful and if they are supported in a wide range of compilers.
In general, we are primarily interested in supporting these four compilers:
- GCC on *nix
- Clang (LLVM)
- MSVC
- mingw32-w64
This is in keeping with our goal of primarily targetting GNU/Linux, Windows and Mac OS, along with Free Software POSIX-compliant operating systems. See Supported platforms for a bit more information and rationale about that.
In particular, we are interested in MSVC because, although there are other compilers which target Windows, they do not output debugging information that is compatible with MSVC. In interest of usability, we want users of GLib to be able to debug GLib along with their own code while using MSVC as their development environment.
At any given time, GLib may work with mingw32 (from mingw.org) but it is not specifically supported. Politics aside, it seems that mingw.org is mostly dormant and, at this point, all of the big distributions have switched over to mingw32-w64. In several cases, mingw.org has been missing APIs that we’ve wanted to use and upstream has not been responsive about adding them.
GLib will attempt to remain compatible with other compilers, but some ‘extra features’ are assumed. Those are detailed below.
GLib additionally requires Python 3 to build.
Varargs macros
Not a hard requirement.
GLib can work with either C99 or GNU style varargs macros.
Symbol visibility control
Not a hard requirement.
When available, GLib uses __attribute__((visibility("hidden")))
and the
-fvisibility=hidden
compiler option to control symbol visibility, and the
-Bsymbolic-functions
linker flag.
Builtin atomic operations
Not a hard requirement.
GLib will fall back to using a mutex-based implementation if atomic builtins are not available.
C99 printf and positional parameters
Not a hard requirement.
GLib can be built with an included printf implementation (from GNUlib) if the system printf is deficient.
Constructors and destructors
Hard requirement.
GLib can work with pragma-based, as well as with attribute-based constructor
support. There is a fallback for MSVC using a DllMain()
instead.
va_list
pass-by-reference
Hard requirement.
GLib depends on the ability to pass-by-reference a va_list
, as mandated in
C99 § 7.15: “It is permitted to create a pointer to a va_list
and pass that
pointer to another function, in which case the original function may make
further use of the original list after the other function returns.”
Support for static inline
Hard requirement.
GLib depends on implementation of the inline
keyword as described by
C99 § 6.7.4.
GLib further assumes that functions appearing in header files and marked
static inline
, but not used in a particular compilation unit will:
- not generate warnings about being unused
- not be emitted in the compiler’s output
It is possible that a compiler adheres to C99 § 6.7.4 but not to GLib’s further assumptions. Such compilers may produce large numbers of warnings or large executables when compiling GLib or programs based on GLib.
Support for alloca()
Hard requirement.
Your compiler must support alloca()
, defined in <alloca.h>
(or <malloc.h>
on Windows) and it must accept a non-constant argument.
(C11) support for type redefinition
This requirement has been temporarily suspended (on account of OpenBSD carrying an old version of gcc) but it will probably return in the future.
Your compiler must allow “a typedef name [to] be redefined to denote the same type as it currently does”, as per C11 §6.7, item 3.
‘Big’ enums
Hard requirement.
Some of our enum types use 1<<31
as a value. We also use negative values in
enums. We rely on the compiler to choose a suitable storage size for the enum
that can accommodate this.
Selected C99 features
Hard requirement.
Starting with GLib 2.52 and GTK+ 3.90, we will be using the following C99 features where appropriate:
- Compound literals
- Designated initializers
- Mixed declarations
Function pointer conversions
Hard requirement.
GLib heavily relies on the ability to convert a function pointer to a void*
and back again losslessly. Any platform or compiler which doesn’t support this
cannot be used to compile GLib or code which uses GLib. This precludes use of
the -pedantic
GCC flag with GLib.
stdint.h
Hard requirement since GLib 2.67.x.
GLib requires a C99 stdint.h
with all the usual sized integer types (int8_t
, uint64_t
and so on),
believed to be supported by all relevant Unix platforms/compilers, as well as
Microsoft compilers since MSVC 2013.