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// Copyright 2020 Google LLC
// SPDX-License-Identifier: Apache-2.0
//
// 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 HIGHWAY_HWY_TARGETS_H_
#define HIGHWAY_HWY_TARGETS_H_
// Allows opting out of C++ standard library usage, which is not available in
// some Compiler Explorer environments.
#ifndef HWY_NO_LIBCXX
#include <vector>
#endif
// For SIMD module implementations and their callers. Defines which targets to
// generate and call.
#include "hwy/base.h"
#include "hwy/detect_targets.h"
#include "hwy/highway_export.h"
#if !HWY_ARCH_RVV && !defined(HWY_NO_LIBCXX)
#include <atomic>
#endif
namespace hwy {
// Returns bitfield of enabled targets that are supported on this CPU; there is
// always at least one such target, hence the return value is never 0. The
// targets returned may change after calling DisableTargets. This function is
// always defined, but the HWY_SUPPORTED_TARGETS wrapper may allow eliding
// calls to it if there is only a single target enabled.
HWY_DLLEXPORT int64_t SupportedTargets();
// Evaluates to a function call, or literal if there is a single target.
#if (HWY_TARGETS & (HWY_TARGETS - 1)) == 0
#define HWY_SUPPORTED_TARGETS HWY_TARGETS
#else
#define HWY_SUPPORTED_TARGETS hwy::SupportedTargets()
#endif
// Subsequent SupportedTargets will not return targets whose bit(s) are set in
// `disabled_targets`. Exception: if SupportedTargets would return 0, it will
// instead return HWY_STATIC_TARGET (there must always be one target to call).
//
// This function is useful for disabling targets known to be buggy, or if the
// best available target is undesirable (perhaps due to throttling or memory
// bandwidth limitations). Use SetSupportedTargetsForTest instead of this
// function for iteratively enabling specific targets for testing.
HWY_DLLEXPORT void DisableTargets(int64_t disabled_targets);
// Subsequent SupportedTargets will return the given set of targets, except
// those disabled via DisableTargets. Call with a mask of 0 to disable the mock
// and return to the normal SupportedTargets behavior. Used to run tests for
// all targets.
HWY_DLLEXPORT void SetSupportedTargetsForTest(int64_t targets);
#ifndef HWY_NO_LIBCXX
// Return the list of targets in HWY_TARGETS supported by the CPU as a list of
// individual HWY_* target macros such as HWY_SCALAR or HWY_NEON. This list
// is affected by the current SetSupportedTargetsForTest() mock if any.
HWY_INLINE std::vector<int64_t> SupportedAndGeneratedTargets() {
std::vector<int64_t> ret;
for (int64_t targets = SupportedTargets() & HWY_TARGETS; targets != 0;
targets = targets & (targets - 1)) {
int64_t current_target = targets & ~(targets - 1);
ret.push_back(current_target);
}
return ret;
}
#endif // HWY_NO_LIBCXX
static inline HWY_MAYBE_UNUSED const char* TargetName(int64_t target) {
switch (target) {
#if HWY_ARCH_X86
case HWY_SSE2:
return "SSE2";
case HWY_SSSE3:
return "SSSE3";
case HWY_SSE4:
return "SSE4";
case HWY_AVX2:
return "AVX2";
case HWY_AVX3:
return "AVX3";
case HWY_AVX3_DL:
return "AVX3_DL";
case HWY_AVX3_ZEN4:
return "AVX3_ZEN4";
#endif
#if HWY_ARCH_ARM
case HWY_SVE2_128:
return "SVE2_128";
case HWY_SVE_256:
return "SVE_256";
case HWY_SVE2:
return "SVE2";
case HWY_SVE:
return "SVE";
case HWY_NEON:
return "NEON";
case HWY_NEON_WITHOUT_AES:
return "NEON_WITHOUT_AES";
#endif
#if HWY_ARCH_PPC
case HWY_PPC8:
return "PPC8";
case HWY_PPC9:
return "PPC9";
case HWY_PPC10:
return "PPC10";
#endif
#if HWY_ARCH_WASM
case HWY_WASM:
return "WASM";
case HWY_WASM_EMU256:
return "WASM_EMU256";
#endif
#if HWY_ARCH_RVV
case HWY_RVV:
return "RVV";
#endif
case HWY_EMU128:
return "EMU128";
case HWY_SCALAR:
return "SCALAR";
default:
return "Unknown"; // must satisfy gtest IsValidParamName()
}
}
// The maximum number of dynamic targets on any architecture is defined by
// HWY_MAX_DYNAMIC_TARGETS and depends on the arch.
// For the ChosenTarget mask and index we use a different bit arrangement than
// in the HWY_TARGETS mask. Only the targets involved in the current
// architecture are used in this mask, and therefore only the least significant
// (HWY_MAX_DYNAMIC_TARGETS + 2) bits of the int64_t mask are used. The least
// significant bit is set when the mask is not initialized, the next
// HWY_MAX_DYNAMIC_TARGETS more significant bits are a range of bits from the
// HWY_TARGETS or SupportedTargets() mask for the given architecture shifted to
// that position and the next more significant bit is used for HWY_SCALAR (if
// HWY_COMPILE_ONLY_SCALAR is defined) or HWY_EMU128. Because of this we need to
// define equivalent values for HWY_TARGETS in this representation.
// This mask representation allows to use ctz() on this mask and obtain a small
// number that's used as an index of the table for dynamic dispatch. In this
// way the first entry is used when the mask is uninitialized, the following
// HWY_MAX_DYNAMIC_TARGETS are for dynamic dispatch and the last one is for
// scalar.
// The HWY_SCALAR/HWY_EMU128 bit in the ChosenTarget mask format.
#define HWY_CHOSEN_TARGET_MASK_SCALAR (1LL << (HWY_MAX_DYNAMIC_TARGETS + 1))
// Converts from a HWY_TARGETS mask to a ChosenTarget mask format for the
// current architecture.
#define HWY_CHOSEN_TARGET_SHIFT(X) \
((((X) >> (HWY_HIGHEST_TARGET_BIT + 1 - HWY_MAX_DYNAMIC_TARGETS)) & \
((1LL << HWY_MAX_DYNAMIC_TARGETS) - 1)) \
<< 1)
// The HWY_TARGETS mask in the ChosenTarget mask format.
#define HWY_CHOSEN_TARGET_MASK_TARGETS \
(HWY_CHOSEN_TARGET_SHIFT(HWY_TARGETS) | HWY_CHOSEN_TARGET_MASK_SCALAR | 1LL)
#if HWY_ARCH_X86
// Maximum number of dynamic targets, changing this value is an ABI incompatible
// change
#define HWY_MAX_DYNAMIC_TARGETS 15
#define HWY_HIGHEST_TARGET_BIT HWY_HIGHEST_TARGET_BIT_X86
// These must match the order in which the HWY_TARGETS are defined
// starting by the least significant (HWY_HIGHEST_TARGET_BIT + 1 -
// HWY_MAX_DYNAMIC_TARGETS) bit. This list must contain exactly
// HWY_MAX_DYNAMIC_TARGETS elements and does not include SCALAR. The first entry
// corresponds to the best target. Don't include a "," at the end of the list.
#define HWY_CHOOSE_TARGET_LIST(func_name) \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
HWY_CHOOSE_AVX3_ZEN4(func_name), /* AVX3_ZEN4 */ \
HWY_CHOOSE_AVX3_DL(func_name), /* AVX3_DL */ \
HWY_CHOOSE_AVX3(func_name), /* AVX3 */ \
HWY_CHOOSE_AVX2(func_name), /* AVX2 */ \
nullptr, /* AVX */ \
HWY_CHOOSE_SSE4(func_name), /* SSE4 */ \
HWY_CHOOSE_SSSE3(func_name), /* SSSE3 */ \
nullptr, /* reserved - SSE3? */ \
HWY_CHOOSE_SSE2(func_name) /* SSE2 */
#elif HWY_ARCH_ARM
// See HWY_ARCH_X86 above for details.
#define HWY_MAX_DYNAMIC_TARGETS 15
#define HWY_HIGHEST_TARGET_BIT HWY_HIGHEST_TARGET_BIT_ARM
#define HWY_CHOOSE_TARGET_LIST(func_name) \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
HWY_CHOOSE_SVE2_128(func_name), /* SVE2 128-bit */ \
HWY_CHOOSE_SVE_256(func_name), /* SVE 256-bit */ \
HWY_CHOOSE_SVE2(func_name), /* SVE2 */ \
HWY_CHOOSE_SVE(func_name), /* SVE */ \
HWY_CHOOSE_NEON(func_name), /* NEON */ \
HWY_CHOOSE_NEON_WITHOUT_AES(func_name) /* NEON without AES */
#elif HWY_ARCH_RVV
// See HWY_ARCH_X86 above for details.
#define HWY_MAX_DYNAMIC_TARGETS 9
#define HWY_HIGHEST_TARGET_BIT HWY_HIGHEST_TARGET_BIT_RVV
#define HWY_CHOOSE_TARGET_LIST(func_name) \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
HWY_CHOOSE_RVV(func_name), /* RVV */ \
nullptr /* reserved */
#elif HWY_ARCH_PPC
// See HWY_ARCH_X86 above for details.
#define HWY_MAX_DYNAMIC_TARGETS 9
#define HWY_HIGHEST_TARGET_BIT HWY_HIGHEST_TARGET_BIT_PPC
#define HWY_CHOOSE_TARGET_LIST(func_name) \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
HWY_CHOOSE_PPC10(func_name), /* PPC10 */ \
HWY_CHOOSE_PPC9(func_name), /* PPC9 */ \
HWY_CHOOSE_PPC8(func_name), /* PPC8 */ \
nullptr, /* reserved (VSX or AltiVec) */ \
nullptr /* reserved (VSX or AltiVec) */
#elif HWY_ARCH_WASM
// See HWY_ARCH_X86 above for details.
#define HWY_MAX_DYNAMIC_TARGETS 9
#define HWY_HIGHEST_TARGET_BIT HWY_HIGHEST_TARGET_BIT_WASM
#define HWY_CHOOSE_TARGET_LIST(func_name) \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
nullptr, /* reserved */ \
HWY_CHOOSE_WASM_EMU256(func_name), /* WASM_EMU256 */ \
HWY_CHOOSE_WASM(func_name), /* WASM */ \
nullptr /* reserved */
#else
// Unknown architecture, will use HWY_SCALAR without dynamic dispatch, though
// still creating single-entry tables in HWY_EXPORT to ensure portability.
#define HWY_MAX_DYNAMIC_TARGETS 1
#define HWY_HIGHEST_TARGET_BIT HWY_HIGHEST_TARGET_BIT_SCALAR
#endif
// Bitfield of supported and enabled targets. The format differs from that of
// HWY_TARGETS; the lowest bit governs the first function pointer (which is
// special in that it calls FunctionCache, then Update, then dispatches to the
// actual implementation) in the tables created by HWY_EXPORT. Monostate (see
// GetChosenTarget), thread-safe except on RVV.
struct ChosenTarget {
public:
// Reset bits according to `targets` (typically the return value of
// SupportedTargets()). Postcondition: IsInitialized() == true.
void Update(int64_t targets) {
// These are `targets` shifted downwards, see above. Also include SCALAR
// (corresponds to the last entry in the function table) as fallback.
StoreMask(HWY_CHOSEN_TARGET_SHIFT(targets) | HWY_CHOSEN_TARGET_MASK_SCALAR);
}
// Reset to the uninitialized state, so that FunctionCache will call Update
// during the next HWY_DYNAMIC_DISPATCH, and IsInitialized returns false.
void DeInit() { StoreMask(1); }
// Whether Update was called. This indicates whether any HWY_DYNAMIC_DISPATCH
// function was called, which we check in tests.
bool IsInitialized() const { return LoadMask() != 1; }
// Return the index in the dynamic dispatch table to be used by the current
// CPU. Note that this method must be in the header file so it uses the value
// of HWY_CHOSEN_TARGET_MASK_TARGETS defined in the translation unit that
// calls it, which may be different from others. This means we only enable
// those targets that were actually compiled in this module.
size_t HWY_INLINE GetIndex() const {
return hwy::Num0BitsBelowLS1Bit_Nonzero64(
static_cast<uint64_t>(LoadMask() & HWY_CHOSEN_TARGET_MASK_TARGETS));
}
private:
// TODO(janwas): remove RVV once <atomic> is available
#if HWY_ARCH_RVV || defined(HWY_NO_LIBCXX)
int64_t LoadMask() const { return mask_; }
void StoreMask(int64_t mask) { mask_ = mask; }
int64_t mask_{1}; // Initialized to 1 so GetIndex() returns 0.
#else
int64_t LoadMask() const { return mask_.load(); }
void StoreMask(int64_t mask) { mask_.store(mask); }
std::atomic<int64_t> mask_{1}; // Initialized to 1 so GetIndex() returns 0.
#endif // HWY_ARCH_RVV
};
// For internal use (e.g. by FunctionCache and DisableTargets).
HWY_DLLEXPORT ChosenTarget& GetChosenTarget();
} // namespace hwy
#endif // HIGHWAY_HWY_TARGETS_H_
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