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2b0c17f458
I'm not aware of any platforms where this is a problem in practice, but it's definitely nonportable and doesn't hurt to document it. I wonder about CHERI....
197 lines
6.1 KiB
Markdown
197 lines
6.1 KiB
Markdown
Toolchain/Compiler requirements
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===
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GLib requires a toolchain that supports C99.
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GLib contains some fall back code that allows supporting toolchains that are not
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fully C99-compatible.
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GLib makes some assumptions about features of the C library and C preprocessor,
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compiler and linker that may go beyond what C99 mandates. We will use features
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beyond C99 if they are substantially useful and if they are supported in a wide
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range of compilers.
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In general, we are primarily interested in supporting these four compilers:
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* GCC on *nix
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* Clang (LLVM)
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* MSVC
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* mingw32-w64
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This is in keeping with our goal of primarily targetting GNU/Linux, Windows and
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Mac OS, along with Free Software POSIX-compliant operating systems. See
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[Supported platforms](./supported-platforms.md) for a bit more information and
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rationale about that.
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In particular, we are interested in MSVC because, although there are other
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compilers which target Windows, they do not output debugging information that is
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compatible with MSVC. In interest of usability, we want users of GLib to be
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able to debug GLib along with their own code while using MSVC as their
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development environment.
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At any given time, GLib may work with mingw32 (from mingw.org) but it is not
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specifically supported. Politics aside, it seems that mingw.org is mostly
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dormant and, at this point, all of the big distributions have switched over to
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mingw32-w64. In several cases, mingw.org has been missing APIs that we’ve
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wanted to use and upstream has not been responsive about adding them.
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GLib will attempt to remain compatible with other compilers, but some ‘extra
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features’ are assumed. Those are detailed below.
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GLib additionally requires Python 3 to build.
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C99 Varargs macros
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---
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_Hard requirement._
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GLib requires C99 ``__VA_ARG__`` support for both C and C++ compilers.
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Symbol visibility control
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---
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_Not a hard requirement._
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When available, GLib uses `__attribute__((visibility("hidden")))` and the
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`-fvisibility=hidden` compiler option to control symbol visibility, and the
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`-Bsymbolic-functions` linker flag.
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Builtin atomic operations
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---
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_Not a hard requirement._
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GLib will fall back to using a mutex-based implementation if atomic builtins are
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not available.
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C99 printf and positional parameters
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---
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_Not a hard requirement._
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GLib can be built with an included printf implementation (from GNUlib) if the
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system printf is deficient.
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Constructors and destructors
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---
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_Hard requirement._
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GLib can work with pragma-based, as well as with attribute-based constructor
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support. There is a fallback for MSVC using a `DllMain()` instead.
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`va_list` pass-by-reference
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---
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_Hard requirement._
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GLib depends on the ability to pass-by-reference a `va_list`, as mandated in
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C99 § 7.15: “It is permitted to create a pointer to a `va_list` and pass that
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pointer to another function, in which case the original function may make
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further use of the original list after the other function returns.”
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Support for `static inline`
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---
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_Hard requirement._
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GLib depends on implementation of the `inline` keyword as described by
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C99 § 6.7.4.
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GLib further assumes that functions appearing in header files and marked
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`static inline`, but not used in a particular compilation unit will:
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* not generate warnings about being unused
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* not be emitted in the compiler’s output
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It is possible that a compiler adheres to C99 § 6.7.4 but not to GLib’s further
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assumptions. Such compilers may produce large numbers of warnings or large
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executables when compiling GLib or programs based on GLib.
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Support for `alloca()`
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---
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_Hard requirement._
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Your compiler must support `alloca()`, defined in `<alloca.h>` (or `<malloc.h>`
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on Windows) and it must accept a non-constant argument.
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(C11) support for type redefinition
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---
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**This requirement has been temporarily suspended (on account of OpenBSD
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carrying an old version of gcc) but it will probably return in the future.**
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Your compiler must allow “a typedef name [to] be redefined to denote the same
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type as it currently does”, as per C11 §6.7, item 3.
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‘Big’ enums
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---
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_Hard requirement._
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Some of our enum types use `1<<31` as a value. We also use negative values in
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enums. We rely on the compiler to choose a suitable storage size for the enum
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that can accommodate this.
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Selected C99 features
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---
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_Hard requirement._
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Starting with GLib 2.52 and GTK 3.90, we will be using the following C99
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features where appropriate:
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* Compound literals
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* Designated initializers
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* Mixed declarations
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Function pointer conversions
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---
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_Hard requirement._
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GLib heavily relies on the ability to convert a function pointer to a `void*`
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and back again losslessly. Any platform or compiler which doesn’t support this
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cannot be used to compile GLib or code which uses GLib. This precludes use of
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the `-pedantic` GCC flag with GLib.
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NULL defined as void pointer, or same size and representation as void pointer
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---
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_Hard requirement._
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GLib assumes that it is safe to pass `NULL` to a variadic function without
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explicitly casting it to a char * pointer, e.g.:
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```
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g_object_new (G_TYPE_FOO,
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"bar", bar,
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NULL);
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```
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This pattern is pervasive throughout GLib and applications that use GLib, but it
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is also nonportable. If `NULL` is defined as an integer type, `0`, rather than a
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pointer type, `(void *) 0`, then using an integer where a pointer is expected
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results in stack corruption if the size of a pointer is different from the size
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of `NULL`. Portable code would use `(char *) NULL`, `(void *) NULL` or `nullptr`
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(in C23 or C++11 or later) instead.
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This requirement technically only applies to C, since GLib is written in C and
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since C++ does not permit `NULL` to be defined as a void pointer. If you are
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writing C++ code that uses GLib, use `nullptr` to avoid this problem.
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GLib further assumes that the representations of pointers of different types are
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identical, which is not guaranteed.
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`stdint.h`
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---
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_Hard requirement since GLib 2.67.x._
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GLib [requires a C99 `stdint.h`](https://gitlab.gnome.org/GNOME/glib/-/merge_requests/1675)
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with all the usual sized integer types (`int8_t`, `uint64_t` and so on),
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believed to be supported by all relevant Unix platforms/compilers, as well as
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Microsoft compilers since MSVC 2013.
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