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/**
* D header file for C99.
*
* $(C_HEADER_DESCRIPTION pubs.opengroup.org/onlinepubs/009695399/basedefs/_stdarg.h.html, _stdarg.h)
*
* Copyright: Copyright Digital Mars 2000 - 2020.
* License: $(HTTP www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
* Authors: Walter Bright, Hauke Duden
* Standards: ISO/IEC 9899:1999 (E)
* Source: $(DRUNTIMESRC core/stdc/_stdarg.d)
*/
module core.stdc.stdarg;
@system:
@nogc:
nothrow:
version (X86_64)
{
version (Windows) { /* different ABI */ }
else version = SysV_x64;
}
version (GNU)
{
import gcc.builtins;
}
else version (SysV_x64)
{
static import core.internal.vararg.sysv_x64;
version (DigitalMars)
{
align(16) struct __va_argsave_t
{
size_t[6] regs; // RDI,RSI,RDX,RCX,R8,R9
real[8] fpregs; // XMM0..XMM7
__va_list va;
}
}
}
version (ARM) version = ARM_Any;
version (AArch64) version = ARM_Any;
version (MIPS32) version = MIPS_Any;
version (MIPS64) version = MIPS_Any;
version (PPC) version = PPC_Any;
version (PPC64) version = PPC_Any;
version (GNU)
{
// Uses gcc.builtins
}
else version (ARM_Any)
{
// Darwin uses a simpler varargs implementation
version (OSX) {}
else version (iOS) {}
else version (TVOS) {}
else version (WatchOS) {}
else:
version (ARM)
{
version = AAPCS32;
}
else version (AArch64)
{
version = AAPCS64;
static import core.internal.vararg.aarch64;
}
}
T alignUp(size_t alignment = size_t.sizeof, T)(T base) pure
{
enum mask = alignment - 1;
static assert(alignment > 0 && (alignment & mask) == 0, "alignment must be a power of 2");
auto b = cast(size_t) base;
b = (b + mask) & ~mask;
return cast(T) b;
}
unittest
{
assert(1.alignUp == size_t.sizeof);
assert(31.alignUp!16 == 32);
assert(32.alignUp!16 == 32);
assert(33.alignUp!16 == 48);
assert((-9).alignUp!8 == -8);
}
version (BigEndian)
{
// Adjusts a size_t-aligned pointer for types smaller than size_t.
T* adjustForBigEndian(T)(T* p, size_t size) pure
{
return size >= size_t.sizeof ? p :
cast(T*) ((cast(void*) p) + (size_t.sizeof - size));
}
}
/**
* The argument pointer type.
*/
version (GNU)
{
alias va_list = __gnuc_va_list;
alias __gnuc_va_list = __builtin_va_list;
}
else version (SysV_x64)
{
alias va_list = core.internal.vararg.sysv_x64.va_list;
public import core.internal.vararg.sysv_x64 : __va_list, __va_list_tag;
}
else version (AAPCS32)
{
alias va_list = __va_list;
// need std::__va_list for C++ mangling compatibility (AAPCS32 section 8.1.4)
extern (C++, std) struct __va_list
{
void* __ap;
}
}
else version (AAPCS64)
{
alias va_list = core.internal.vararg.aarch64.va_list;
}
else
{
alias va_list = char*; // incl. unknown platforms
}
/**
* Initialize ap.
* parmn should be the last named parameter.
*/
version (GNU)
{
void va_start(T)(out va_list ap, ref T parmn);
}
else version (LDC)
{
pragma(LDC_va_start)
void va_start(T)(out va_list ap, ref T parmn) @nogc;
}
else version (DigitalMars)
{
version (X86)
{
void va_start(T)(out va_list ap, ref T parmn)
{
ap = cast(va_list) ((cast(void*) &parmn) + T.sizeof.alignUp);
}
}
else
{
void va_start(T)(out va_list ap, ref T parmn); // intrinsic; parmn should be __va_argsave for non-Windows x86_64 targets
}
}
/**
* Retrieve and return the next value that is of type T.
*/
version (GNU)
T va_arg(T)(ref va_list ap); // intrinsic
else
T va_arg(T)(ref va_list ap)
{
version (X86)
{
auto p = cast(T*) ap;
ap += T.sizeof.alignUp;
return *p;
}
else version (Win64)
{
// LDC passes slices as 2 separate 64-bit values, not as 128-bit struct
version (LDC) enum isLDC = true;
else enum isLDC = false;
static if (isLDC && is(T == E[], E))
{
auto p = cast(T*) ap;
ap += T.sizeof;
return *p;
}
else
{
// passed indirectly by value if > 64 bits or of a size that is not a power of 2
static if (T.sizeof > size_t.sizeof || (T.sizeof & (T.sizeof - 1)) != 0)
auto p = *cast(T**) ap;
else
auto p = cast(T*) ap;
ap += size_t.sizeof;
return *p;
}
}
else version (SysV_x64)
{
return core.internal.vararg.sysv_x64.va_arg!T(ap);
}
else version (AAPCS32)
{
// AAPCS32 section 6.5 B.5: type with alignment >= 8 is 8-byte aligned
// instead of normal 4-byte alignment (APCS doesn't do this).
if (T.alignof >= 8)
ap.__ap = ap.__ap.alignUp!8;
auto p = cast(T*) ap.__ap;
version (BigEndian)
static if (T.sizeof < size_t.sizeof)
p = adjustForBigEndian(p, T.sizeof);
ap.__ap += T.sizeof.alignUp;
return *p;
}
else version (AAPCS64)
{
return core.internal.vararg.aarch64.va_arg!T(ap);
}
else version (ARM_Any)
{
auto p = cast(T*) ap;
version (BigEndian)
static if (T.sizeof < size_t.sizeof)
p = adjustForBigEndian(p, T.sizeof);
ap += T.sizeof.alignUp;
return *p;
}
else version (PPC_Any)
{
/*
* The rules are described in the 64bit PowerPC ELF ABI Supplement 1.9,
* available here:
* http://refspecs.linuxfoundation.org/ELF/ppc64/PPC-elf64abi-1.9.html#PARAM-PASS
*/
// Chapter 3.1.4 and 3.2.3: alignment may require the va_list pointer to first
// be aligned before accessing a value
if (T.alignof >= 8)
ap = ap.alignUp!8;
auto p = cast(T*) ap;
version (BigEndian)
static if (T.sizeof < size_t.sizeof)
p = adjustForBigEndian(p, T.sizeof);
ap += T.sizeof.alignUp;
return *p;
}
else version (MIPS_Any)
{
auto p = cast(T*) ap;
version (BigEndian)
static if (T.sizeof < size_t.sizeof)
p = adjustForBigEndian(p, T.sizeof);
ap += T.sizeof.alignUp;
return *p;
}
else
static assert(0, "Unsupported platform");
}
/**
* Retrieve and store in parmn the next value that is of type T.
*/
version (GNU)
void va_arg(T)(ref va_list ap, ref T parmn); // intrinsic
else
void va_arg(T)(ref va_list ap, ref T parmn)
{
parmn = va_arg!T(ap);
}
/**
* End use of ap.
*/
version (GNU)
{
alias va_end = __builtin_va_end;
}
else version (LDC)
{
pragma(LDC_va_end)
void va_end(va_list ap);
}
else version (DigitalMars)
{
void va_end(va_list ap) {}
}
/**
* Make a copy of ap.
*/
version (GNU)
{
alias va_copy = __builtin_va_copy;
}
else version (LDC)
{
pragma(LDC_va_copy)
void va_copy(out va_list dest, va_list src);
}
else version (DigitalMars)
{
version (SysV_x64)
{
void va_copy(out va_list dest, va_list src, void* storage = alloca(__va_list_tag.sizeof))
{
// Instead of copying the pointers, and aliasing the source va_list,
// the default argument alloca will allocate storage in the caller's
// stack frame. This is still not correct (it should be allocated in
// the place where the va_list variable is declared) but most of the
// time the caller's stack frame _is_ the place where the va_list is
// allocated, so in most cases this will now work.
dest = cast(va_list) storage;
*dest = *src;
}
import core.stdc.stdlib : alloca;
}
else
{
void va_copy(out va_list dest, va_list src)
{
dest = src;
}
}
}
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