/* SPDX-License-Identifier: Apache-2.0 * Copyright 2014-2022 Blender Foundation */ #ifndef __UTIL_ATOMIC_H__ #define __UTIL_ATOMIC_H__ #ifndef __KERNEL_GPU__ /* Using atomic ops header from Blender. */ # include "atomic_ops.h" # define atomic_add_and_fetch_float(p, x) atomic_add_and_fetch_fl((p), (x)) # define atomic_compare_and_swap_float(p, old_val, new_val) \ atomic_cas_float((p), (old_val), (new_val)) # define atomic_fetch_and_inc_uint32(p) atomic_fetch_and_add_uint32((p), 1) # define atomic_fetch_and_dec_uint32(p) atomic_fetch_and_add_uint32((p), -1) # define CCL_LOCAL_MEM_FENCE 0 # define ccl_barrier(flags) ((void)0) #else /* __KERNEL_GPU__ */ # if defined(__KERNEL_CUDA__) || defined(__KERNEL_HIP__) # define atomic_add_and_fetch_float(p, x) (atomicAdd((float *)(p), (float)(x)) + (float)(x)) # define atomic_fetch_and_add_uint32(p, x) atomicAdd((unsigned int *)(p), (unsigned int)(x)) # define atomic_fetch_and_sub_uint32(p, x) atomicSub((unsigned int *)(p), (unsigned int)(x)) # define atomic_fetch_and_inc_uint32(p) atomic_fetch_and_add_uint32((p), 1) # define atomic_fetch_and_dec_uint32(p) atomic_fetch_and_sub_uint32((p), 1) # define atomic_fetch_and_or_uint32(p, x) atomicOr((unsigned int *)(p), (unsigned int)(x)) ccl_device_inline float atomic_compare_and_swap_float(volatile float *dest, const float old_val, const float new_val) { union { unsigned int int_value; float float_value; } new_value, prev_value, result; prev_value.float_value = old_val; new_value.float_value = new_val; result.int_value = atomicCAS((unsigned int *)dest, prev_value.int_value, new_value.int_value); return result.float_value; } # define CCL_LOCAL_MEM_FENCE # define ccl_barrier(flags) __syncthreads() # endif /* __KERNEL_CUDA__ */ # ifdef __KERNEL_METAL__ // global address space versions ccl_device_inline float atomic_add_and_fetch_float(volatile ccl_global float *_source, const float operand) { volatile ccl_global atomic_int *source = (ccl_global atomic_int *)_source; union { int int_value; float float_value; } new_value, prev_value; prev_value.int_value = atomic_load_explicit(source, memory_order_relaxed); do { new_value.float_value = prev_value.float_value + operand; } while (!atomic_compare_exchange_weak_explicit(source, &prev_value.int_value, new_value.int_value, memory_order_relaxed, memory_order_relaxed)); return new_value.float_value; } # define atomic_fetch_and_add_uint32(p, x) \ atomic_fetch_add_explicit((device atomic_uint *)p, x, memory_order_relaxed) # define atomic_fetch_and_sub_uint32(p, x) \ atomic_fetch_sub_explicit((device atomic_uint *)p, x, memory_order_relaxed) # define atomic_fetch_and_inc_uint32(p) \ atomic_fetch_add_explicit((device atomic_uint *)p, 1, memory_order_relaxed) # define atomic_fetch_and_dec_uint32(p) \ atomic_fetch_sub_explicit((device atomic_uint *)p, 1, memory_order_relaxed) # define atomic_fetch_and_or_uint32(p, x) \ atomic_fetch_or_explicit((device atomic_uint *)p, x, memory_order_relaxed) ccl_device_inline float atomic_compare_and_swap_float(volatile ccl_global float *dest, const float old_val, const float new_val) { int prev_value; prev_value = __float_as_int(old_val); atomic_compare_exchange_weak_explicit((ccl_global atomic_int *)dest, &prev_value, __float_as_int(new_val), memory_order_relaxed, memory_order_relaxed); return __int_as_float(prev_value); } # define atomic_store(p, x) atomic_store_explicit(p, x, memory_order_relaxed) # define atomic_fetch(p) atomic_load_explicit(p, memory_order_relaxed) # define CCL_LOCAL_MEM_FENCE mem_flags::mem_threadgroup # define ccl_barrier(flags) threadgroup_barrier(flags) # endif /* __KERNEL_METAL__ */ # ifdef __KERNEL_ONEAPI__ ccl_device_inline float atomic_add_and_fetch_float(ccl_global float *p, float x) { sycl::atomic_ref atomic(*p); return atomic.fetch_add(x); } ccl_device_inline float atomic_compare_and_swap_float(ccl_global float *source, float old_val, float new_val) { sycl::atomic_ref atomic(*source); atomic.compare_exchange_weak(old_val, new_val); return old_val; } ccl_device_inline unsigned int atomic_fetch_and_add_uint32(ccl_global unsigned int *p, unsigned int x) { sycl::atomic_ref atomic(*p); return atomic.fetch_add(x); } ccl_device_inline int atomic_fetch_and_add_uint32(ccl_global int *p, int x) { sycl::atomic_ref atomic(*p); return atomic.fetch_add(x); } ccl_device_inline unsigned int atomic_fetch_and_sub_uint32(ccl_global unsigned int *p, unsigned int x) { sycl::atomic_ref atomic(*p); return atomic.fetch_sub(x); } ccl_device_inline int atomic_fetch_and_sub_uint32(ccl_global int *p, int x) { sycl::atomic_ref atomic(*p); return atomic.fetch_sub(x); } ccl_device_inline unsigned int atomic_fetch_and_inc_uint32(ccl_global unsigned int *p) { return atomic_fetch_and_add_uint32(p, 1); } ccl_device_inline int atomic_fetch_and_inc_uint32(ccl_global int *p) { return atomic_fetch_and_add_uint32(p, 1); } ccl_device_inline unsigned int atomic_fetch_and_dec_uint32(ccl_global unsigned int *p) { return atomic_fetch_and_sub_uint32(p, 1); } ccl_device_inline int atomic_fetch_and_dec_uint32(ccl_global int *p) { return atomic_fetch_and_sub_uint32(p, 1); } ccl_device_inline unsigned int atomic_fetch_and_or_uint32(ccl_global unsigned int *p, unsigned int x) { sycl::atomic_ref atomic(*p); return atomic.fetch_or(x); } ccl_device_inline int atomic_fetch_and_or_uint32(ccl_global int *p, int x) { sycl::atomic_ref atomic(*p); return atomic.fetch_or(x); } # endif /* __KERNEL_ONEAPI__ */ #endif /* __KERNEL_GPU__ */ #endif /* __UTIL_ATOMIC_H__ */