blob: ab97c05a5117c37014bec103358da344cac79560 [file] [log] [blame]
// Copyright 2016 The Cobalt Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef STARBOARD_SHARED_STUB_ATOMIC_PUBLIC_H_
#define STARBOARD_SHARED_STUB_ATOMIC_PUBLIC_H_
#include "starboard/atomic.h"
#ifdef __cplusplus
extern "C" {
#endif
SB_C_FORCE_INLINE SbAtomic32
SbAtomicNoBarrier_CompareAndSwap(volatile SbAtomic32* ptr,
SbAtomic32 old_value,
SbAtomic32 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(old_value);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE SbAtomic32
SbAtomicNoBarrier_Exchange(volatile SbAtomic32* ptr, SbAtomic32 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE SbAtomic32
SbAtomicNoBarrier_Increment(volatile SbAtomic32* ptr, SbAtomic32 increment) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(increment);
return 0;
}
SB_C_FORCE_INLINE SbAtomic32 SbAtomicBarrier_Increment(volatile SbAtomic32* ptr,
SbAtomic32 increment) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(increment);
return 0;
}
SB_C_FORCE_INLINE SbAtomic32
SbAtomicAcquire_CompareAndSwap(volatile SbAtomic32* ptr,
SbAtomic32 old_value,
SbAtomic32 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(old_value);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE SbAtomic32
SbAtomicRelease_CompareAndSwap(volatile SbAtomic32* ptr,
SbAtomic32 old_value,
SbAtomic32 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(old_value);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE void SbAtomicMemoryBarrier() {}
SB_C_FORCE_INLINE void SbAtomicNoBarrier_Store(volatile SbAtomic32* ptr,
SbAtomic32 value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(value);
}
SB_C_FORCE_INLINE void SbAtomicAcquire_Store(volatile SbAtomic32* ptr,
SbAtomic32 value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(value);
}
SB_C_FORCE_INLINE void SbAtomicRelease_Store(volatile SbAtomic32* ptr,
SbAtomic32 value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(value);
}
SB_C_FORCE_INLINE SbAtomic32
SbAtomicNoBarrier_Load(volatile const SbAtomic32* ptr) {
SB_UNREFERENCED_PARAMETER(ptr);
return 0;
}
SB_C_FORCE_INLINE SbAtomic32
SbAtomicAcquire_Load(volatile const SbAtomic32* ptr) {
SB_UNREFERENCED_PARAMETER(ptr);
return 0;
}
SB_C_FORCE_INLINE SbAtomic32
SbAtomicRelease_Load(volatile const SbAtomic32* ptr) {
SB_UNREFERENCED_PARAMETER(ptr);
return 0;
}
#if SB_API_VERSION >= 10
SB_C_FORCE_INLINE SbAtomic8
SbAtomicRelease_CompareAndSwap8(volatile SbAtomic8* ptr,
SbAtomic8 old_value,
SbAtomic8 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(old_value);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE void
SbAtomicNoBarrier_Store8(volatile SbAtomic8* ptr, SbAtomic8 value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(value);
}
SB_C_FORCE_INLINE SbAtomic8
SbAtomicNoBarrier_Load8(volatile const SbAtomic8* ptr) {
SB_UNREFERENCED_PARAMETER(ptr);
return 0;
}
#endif // SB_API_VERSION >= 10
// 64-bit atomic operations (only available on 64-bit processors).
#if SB_HAS(64_BIT_ATOMICS)
SB_C_FORCE_INLINE SbAtomic64
SbAtomicNoBarrier_CompareAndSwap64(volatile SbAtomic64* ptr,
SbAtomic64 old_value,
SbAtomic64 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(old_value);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE SbAtomic64
SbAtomicNoBarrier_Exchange64(volatile SbAtomic64* ptr, SbAtomic64 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE SbAtomic64
SbAtomicNoBarrier_Increment64(volatile SbAtomic64* ptr, SbAtomic64 increment) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(increment);
return 0;
}
SB_C_FORCE_INLINE SbAtomic64
SbAtomicBarrier_Increment64(volatile SbAtomic64* ptr, SbAtomic64 increment) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(increment);
return 0;
}
SB_C_FORCE_INLINE SbAtomic64
SbAtomicAcquire_CompareAndSwap64(volatile SbAtomic64* ptr,
SbAtomic64 old_value,
SbAtomic64 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(old_value);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE SbAtomic64
SbAtomicRelease_CompareAndSwap64(volatile SbAtomic64* ptr,
SbAtomic64 old_value,
SbAtomic64 new_value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(old_value);
SB_UNREFERENCED_PARAMETER(new_value);
return 0;
}
SB_C_FORCE_INLINE void SbAtomicNoBarrier_Store64(volatile SbAtomic64* ptr,
SbAtomic64 value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(value);
}
SB_C_FORCE_INLINE void SbAtomicAcquire_Store64(volatile SbAtomic64* ptr,
SbAtomic64 value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(value);
}
SB_C_FORCE_INLINE void SbAtomicRelease_Store64(volatile SbAtomic64* ptr,
SbAtomic64 value) {
SB_UNREFERENCED_PARAMETER(ptr);
SB_UNREFERENCED_PARAMETER(value);
}
SB_C_FORCE_INLINE SbAtomic64
SbAtomicNoBarrier_Load64(volatile const SbAtomic64* ptr) {
SB_UNREFERENCED_PARAMETER(ptr);
return 0;
}
SB_C_FORCE_INLINE SbAtomic64
SbAtomicAcquire_Load64(volatile const SbAtomic64* ptr) {
SB_UNREFERENCED_PARAMETER(ptr);
return 0;
}
SB_C_FORCE_INLINE SbAtomic64
SbAtomicRelease_Load64(volatile const SbAtomic64* ptr) {
SB_UNREFERENCED_PARAMETER(ptr);
return 0;
}
#endif // SB_HAS(64_BIT_ATOMICS)
#ifdef __cplusplus
} // extern "C"
#endif
#endif // STARBOARD_SHARED_STUB_ATOMIC_PUBLIC_H_