kit/atomic.win32.c


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#include "atomic.h"

#ifdef _MSC_VER
static_assert(sizeof(char) == 1, "Wrong char size");
static_assert(sizeof(short) == 2, "Wrong short size");
static_assert(sizeof(int) == 4, "Wrong int size");

#  include <intrin.h>

void kit_atomic_store_explicit_8(u8 volatile *var, u8 value,
                                 i32 memory_order) {
  char volatile *dst = (char volatile *) var;
  char           src = (char) value;

  switch (memory_order) {
    case memory_order_relaxed: *dst = src; break;
    default: _InterlockedExchange8(dst, src);
  }
}

void kit_atomic_store_explicit_16(u16 volatile *var, u16 value,
                                  i32 memory_order) {
  short volatile *dst = (short volatile *) var;
  short           src = (short) value;

  switch (memory_order) {
    case memory_order_relaxed: *dst = src; break;
    default: _InterlockedExchange16(dst, src);
  }
}

void kit_atomic_store_explicit_32(u32 volatile *var, u32 value,
                                  i32 memory_order) {
  int volatile *dst = (int volatile *) var;
  int           src = (int) value;

  switch (memory_order) {
    case memory_order_relaxed: *dst = src; break;
    default: _InterlockedExchange(dst, src);
  }
}

void kit_atomic_store_explicit_64(u64 volatile *var, u64 value,
                                  i32 memory_order) {
  __int64 volatile *dst = (__int64 volatile *) var;
  __int64           src = (__int64) value;

  switch (memory_order) {
    case memory_order_relaxed: *dst = src; break;
    default:
#  ifdef _WIN64
      _InterlockedExchange64(dst, src);
#  else
      assert(0);
      _InterlockedExchange((int volatile *) dst, (int) src);
#  endif
  }
}

u8 kit_atomic_load_explicit_8(volatile u8 *var, i32 memory_order) {
  char volatile *dst = (char volatile *) var;

  if (memory_order == memory_order_relaxed)
    return (u8) *dst;

  return (u8) _InterlockedOr8(dst, 0);
}

u16 kit_atomic_load_explicit_16(u16 volatile *var, i32 memory_order) {
  short volatile *dst = (short volatile *) var;

  if (memory_order == memory_order_relaxed)
    return (u16) *dst;

  return (u16) _InterlockedOr16(dst, 0);
}

u32 kit_atomic_load_explicit_32(u32 volatile *var, i32 memory_order) {
  int volatile *dst = (int volatile *) var;

  if (memory_order == memory_order_relaxed)
    return (u32) *dst;

  return (u32) _InterlockedOr(dst, 0);
}

u64 kit_atomic_load_explicit_64(u64 volatile *var, i32 memory_order) {
  __int64 volatile *dst = (__int64 volatile *) var;

  if (memory_order == memory_order_relaxed)
    return (u64) *dst;

#  ifdef _WIN64
  return (u64) _InterlockedOr64(dst, 0);
#  else
  assert(0);
  return (u64) _InterlockedOr((int volatile *) dst, 0);
#  endif
}

u8 kit_atomic_exchange_explicit_8(volatile u8 *var, u8 value,
                                  i32 memory_order) {
  char volatile *dst = (char volatile *) var;
  char           src = (char) value;

  return (u8) _InterlockedExchange8(dst, src);
}

u16 kit_atomic_exchange_explicit_16(u16 volatile *var, u16 value,
                                    i32 memory_order) {
  short volatile *dst = (short volatile *) var;
  short           src = (short) value;

  return (u16) _InterlockedExchange16(dst, src);
}

u32 kit_atomic_exchange_explicit_32(u32 volatile *var, u32 value,
                                    i32 memory_order) {
  int volatile *dst = (int volatile *) var;
  int           src = (int) value;

  return (u32) _InterlockedExchange(dst, src);
}

u64 kit_atomic_exchange_explicit_64(u64 volatile *var, u64 value,
                                    i32 memory_order) {
  __int64 volatile *dst = (__int64 volatile *) var;
  __int64           src = (__int64) value;

#  ifdef _WIN64
  return (u64) _InterlockedExchange64(dst, src);
#  else
  assert(0);
  return (u64) _InterlockedExchange((int volatile *) dst, (int) src);
#  endif
}

int kit_atomic_compare_exchange_explicit_8(volatile u8 *var,
                                           u8 *expected, u8 value,
                                           i32 memory_order_succ_,
                                           i32 memory_order_fail_) {
  char volatile *dst = (char volatile *) var;
  char           src = (char) value;
  char           exp = (char) *expected;

  *expected = (u8) _InterlockedCompareExchange8(dst, src, exp);

  return exp == (char) *expected;
}

int kit_atomic_compare_exchange_explicit_16(u16 volatile *var,
                                            u16 *expected, u16 value,
                                            i32 memory_order_succ_,
                                            i32 memory_order_fail_) {
  short volatile *dst = (short volatile *) var;
  short           src = (short) value;
  short           exp = (short) *expected;

  *expected = (u16) _InterlockedCompareExchange16(dst, src, exp);

  return exp == (short) *expected;
}

int kit_atomic_compare_exchange_explicit_32(u32 volatile *var,
                                            u32 *expected, u32 value,
                                            i32 memory_order_succ_,
                                            i32 memory_order_fail_) {
  int volatile *dst = (int volatile *) var;
  int           src = (int) value;
  int           exp = (int) *expected;

  *expected = (u32) _InterlockedCompareExchange(dst, src, exp);

  return exp == (int) *expected;
}

int kit_atomic_compare_exchange_explicit_64(u64 volatile *var,
                                            u64 *expected, u64 value,
                                            i32 memory_order_succ_,
                                            i32 memory_order_fail_) {
  __int64 volatile *dst = (__int64 volatile *) var;
  __int64           src = (__int64) value;
  __int64           exp = (__int64) *expected;

#  ifdef _WIN64
  *expected = (u64) _InterlockedCompareExchange64(dst, src, exp);
#  else
  assert(0);
  *expected = (u64) _InterlockedCompareExchange((int volatile *) dst,
                                                (int) src, (int) exp);
#  endif

  return exp == (__int64) *expected;
}

u8 kit_atomic_fetch_add_explicit_8(volatile u8 *var, u8 value,
                                   i32 memory_order) {
  char volatile *dst = (char volatile *) var;
  char           src = (char) value;

  return (u8) _InterlockedExchangeAdd8(dst, src);
}

u16 kit_atomic_fetch_add_explicit_16(u16 volatile *var, u16 value,
                                     i32 memory_order) {
  short volatile *dst = (short volatile *) var;
  short           src = (short) value;

  return (u16) _InterlockedExchangeAdd16(dst, src);
}

u32 kit_atomic_fetch_add_explicit_32(u32 volatile *var, u32 value,
                                     i32 memory_order) {
  int volatile *dst = (int volatile *) var;
  int           src = (int) value;

  return (u32) _InterlockedExchangeAdd(dst, src);
}

u64 kit_atomic_fetch_add_explicit_64(u64 volatile *var, u64 value,
                                     i32 memory_order) {
  __int64 volatile *dst = (__int64 volatile *) var;
  __int64           src = (__int64) value;

#  ifdef _WIN64
  return (u64) _InterlockedExchangeAdd64(dst, src);
#  else
  assert(0);
  return (u64) _InterlockedExchangeAdd((int volatile *) dst,
                                       (int) src);
#  endif
}

#endif