libomptarget/DeviceRTL/src/Utils.cpp - llvm-project/openmp - Git at Google

 //===------- Utils.cpp - OpenMP device runtime utility functions -- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 //
 //===----------------------------------------------------------------------===//

 #include "Utils.h"

 #include "Debug.h"
 #include "Interface.h"
 #include "Mapping.h"

 #pragma omp declare target

 using namespace _OMP;

 namespace _OMP {
 /// Helper to keep code alive without introducing a performance penalty.
 __attribute__((used, weak, optnone)) void keepAlive() {
   __kmpc_get_hardware_thread_id_in_block();
   __kmpc_get_hardware_num_threads_in_block();
   __kmpc_get_warp_size();
   __kmpc_barrier_simple_spmd(nullptr, 0);
   __kmpc_barrier_simple_generic(nullptr, 0);
 }
 } // namespace _OMP

 namespace impl {

 /// AMDGCN Implementation
 ///
 ///{
 #pragma omp begin declare variant match(device = {arch(amdgcn)})

 void Unpack(uint64_t Val, uint32_t *LowBits, uint32_t *HighBits) {
   static_assert(sizeof(unsigned long) == 8, "");
   *LowBits = (uint32_t)(Val & 0x00000000FFFFFFFFUL);
   *HighBits = (uint32_t)((Val & 0xFFFFFFFF00000000UL) >> 32);
 }

 uint64_t Pack(uint32_t LowBits, uint32_t HighBits) {
   return (((uint64_t)HighBits) << 32) | (uint64_t)LowBits;
 }

 #pragma omp end declare variant

 /// NVPTX Implementation
 ///
 ///{
 #pragma omp begin declare variant match(                                       \
     device = {arch(nvptx, nvptx64)}, implementation = {extension(match_any)})

 void Unpack(uint64_t Val, uint32_t *LowBits, uint32_t *HighBits) {
   uint32_t LowBitsLocal, HighBitsLocal;
   asm("mov.b64 {%0,%1}, %2;"
       : "=r"(LowBitsLocal), "=r"(HighBitsLocal)
       : "l"(Val));
   *LowBits = LowBitsLocal;
   *HighBits = HighBitsLocal;
 }

 uint64_t Pack(uint32_t LowBits, uint32_t HighBits) {
   uint64_t Val;
   asm("mov.b64 %0, {%1,%2};" : "=l"(Val) : "r"(LowBits), "r"(HighBits));
   return Val;
 }

 #pragma omp end declare variant

 /// AMDGCN Implementation
 ///
 ///{
 #pragma omp begin declare variant match(device = {arch(amdgcn)})

 int32_t shuffle(uint64_t Mask, int32_t Var, int32_t SrcLane) {
   int Width = mapping::getWarpSize();
   int Self = mapping::getThreadIdInWarp();
   int Index = SrcLane + (Self & ~(Width - 1));
   return __builtin_amdgcn_ds_bpermute(Index << 2, Var);
 }

 int32_t shuffleDown(uint64_t Mask, int32_t Var, uint32_t LaneDelta,
                     int32_t Width) {
   int Self = mapping::getThreadIdInWarp();
   int Index = Self + LaneDelta;
   Index = (int)(LaneDelta + (Self & (Width - 1))) >= Width ? Self : Index;
   return __builtin_amdgcn_ds_bpermute(Index << 2, Var);
 }

 #pragma omp end declare variant
 ///}

 /// NVPTX Implementation
 ///
 ///{
 #pragma omp begin declare variant match(                                       \
     device = {arch(nvptx, nvptx64)}, implementation = {extension(match_any)})

 int32_t shuffle(uint64_t Mask, int32_t Var, int32_t SrcLane) {
   return __nvvm_shfl_sync_idx_i32(Mask, Var, SrcLane, 0x1f);
 }

 int32_t shuffleDown(uint64_t Mask, int32_t Var, uint32_t Delta, int32_t Width) {
   int32_t T = ((mapping::getWarpSize() - Width) << 8) | 0x1f;
   return __nvvm_shfl_sync_down_i32(Mask, Var, Delta, T);
 }

 #pragma omp end declare variant
 } // namespace impl

 uint64_t utils::pack(uint32_t LowBits, uint32_t HighBits) {
   return impl::Pack(LowBits, HighBits);
 }

 void utils::unpack(uint64_t Val, uint32_t &LowBits, uint32_t &HighBits) {
   impl::Unpack(Val, &LowBits, &HighBits);
 }

 int32_t utils::shuffle(uint64_t Mask, int32_t Var, int32_t SrcLane) {
   return impl::shuffle(Mask, Var, SrcLane);
 }

 int32_t utils::shuffleDown(uint64_t Mask, int32_t Var, uint32_t Delta,
                            int32_t Width) {
   return impl::shuffleDown(Mask, Var, Delta, Width);
 }

 extern "C" {
 int32_t __kmpc_shuffle_int32(int32_t Val, int16_t Delta, int16_t SrcLane) {
   FunctionTracingRAII();
   return impl::shuffleDown(lanes::All, Val, Delta, SrcLane);
 }

 int64_t __kmpc_shuffle_int64(int64_t Val, int16_t Delta, int16_t Width) {
   FunctionTracingRAII();
   uint32_t lo, hi;
   utils::unpack(Val, lo, hi);
   hi = impl::shuffleDown(lanes::All, hi, Delta, Width);
   lo = impl::shuffleDown(lanes::All, lo, Delta, Width);
   return utils::pack(lo, hi);
 }
 }

 #pragma omp end declare target
	//===------- Utils.cpp - OpenMP device runtime utility functions -- C++ -*-===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	//
	//===----------------------------------------------------------------------===//

	#include "Utils.h"

	#include "Debug.h"
	#include "Interface.h"
	#include "Mapping.h"

	#pragma omp declare target

	using namespace _OMP;

	namespace _OMP {
	/// Helper to keep code alive without introducing a performance penalty.
	__attribute__((used, weak, optnone)) void keepAlive() {
	__kmpc_get_hardware_thread_id_in_block();
	__kmpc_get_hardware_num_threads_in_block();
	__kmpc_get_warp_size();
	__kmpc_barrier_simple_spmd(nullptr, 0);
	__kmpc_barrier_simple_generic(nullptr, 0);
	}
	} // namespace _OMP

	namespace impl {

	/// AMDGCN Implementation
	///
	///{
	#pragma omp begin declare variant match(device = {arch(amdgcn)})

	void Unpack(uint64_t Val, uint32_t LowBits, uint32_t HighBits) {
	static_assert(sizeof(unsigned long) == 8, "");
	*LowBits = (uint32_t)(Val & 0x00000000FFFFFFFFUL);
	*HighBits = (uint32_t)((Val & 0xFFFFFFFF00000000UL) >> 32);
	}

	uint64_t Pack(uint32_t LowBits, uint32_t HighBits) {
	return (((uint64_t)HighBits) << 32) \| (uint64_t)LowBits;
	}

	#pragma omp end declare variant

	/// NVPTX Implementation
	///
	///{
	#pragma omp begin declare variant match( \
	device = {arch(nvptx, nvptx64)}, implementation = {extension(match_any)})

	void Unpack(uint64_t Val, uint32_t LowBits, uint32_t HighBits) {
	uint32_t LowBitsLocal, HighBitsLocal;
	asm("mov.b64 {%0,%1}, %2;"
	: "=r"(LowBitsLocal), "=r"(HighBitsLocal)
	: "l"(Val));
	*LowBits = LowBitsLocal;
	*HighBits = HighBitsLocal;
	}

	uint64_t Pack(uint32_t LowBits, uint32_t HighBits) {
	uint64_t Val;
	asm("mov.b64 %0, {%1,%2};" : "=l"(Val) : "r"(LowBits), "r"(HighBits));
	return Val;
	}

	#pragma omp end declare variant

	/// AMDGCN Implementation
	///
	///{
	#pragma omp begin declare variant match(device = {arch(amdgcn)})

	int32_t shuffle(uint64_t Mask, int32_t Var, int32_t SrcLane) {
	int Width = mapping::getWarpSize();
	int Self = mapping::getThreadIdInWarp();
	int Index = SrcLane + (Self & ~(Width - 1));
	return __builtin_amdgcn_ds_bpermute(Index << 2, Var);
	}

	int32_t shuffleDown(uint64_t Mask, int32_t Var, uint32_t LaneDelta,
	int32_t Width) {
	int Self = mapping::getThreadIdInWarp();
	int Index = Self + LaneDelta;
	Index = (int)(LaneDelta + (Self & (Width - 1))) >= Width ? Self : Index;
	return __builtin_amdgcn_ds_bpermute(Index << 2, Var);
	}

	#pragma omp end declare variant
	///}

	/// NVPTX Implementation
	///
	///{
	#pragma omp begin declare variant match( \
	device = {arch(nvptx, nvptx64)}, implementation = {extension(match_any)})

	int32_t shuffle(uint64_t Mask, int32_t Var, int32_t SrcLane) {
	return __nvvm_shfl_sync_idx_i32(Mask, Var, SrcLane, 0x1f);
	}

	int32_t shuffleDown(uint64_t Mask, int32_t Var, uint32_t Delta, int32_t Width) {
	int32_t T = ((mapping::getWarpSize() - Width) << 8) \| 0x1f;
	return __nvvm_shfl_sync_down_i32(Mask, Var, Delta, T);
	}

	#pragma omp end declare variant
	} // namespace impl

	uint64_t utils::pack(uint32_t LowBits, uint32_t HighBits) {
	return impl::Pack(LowBits, HighBits);
	}

	void utils::unpack(uint64_t Val, uint32_t &LowBits, uint32_t &HighBits) {
	impl::Unpack(Val, &LowBits, &HighBits);
	}

	int32_t utils::shuffle(uint64_t Mask, int32_t Var, int32_t SrcLane) {
	return impl::shuffle(Mask, Var, SrcLane);
	}

	int32_t utils::shuffleDown(uint64_t Mask, int32_t Var, uint32_t Delta,
	int32_t Width) {
	return impl::shuffleDown(Mask, Var, Delta, Width);
	}

	extern "C" {
	int32_t __kmpc_shuffle_int32(int32_t Val, int16_t Delta, int16_t SrcLane) {
	FunctionTracingRAII();
	return impl::shuffleDown(lanes::All, Val, Delta, SrcLane);
	}

	int64_t __kmpc_shuffle_int64(int64_t Val, int16_t Delta, int16_t Width) {
	FunctionTracingRAII();
	uint32_t lo, hi;
	utils::unpack(Val, lo, hi);
	hi = impl::shuffleDown(lanes::All, hi, Delta, Width);
	lo = impl::shuffleDown(lanes::All, lo, Delta, Width);
	return utils::pack(lo, hi);
	}
	}

	#pragma omp end declare target