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Diffstat (limited to 'third_party/highway/hwy/detect_targets.h')
-rw-r--r-- | third_party/highway/hwy/detect_targets.h | 479 |
1 files changed, 479 insertions, 0 deletions
diff --git a/third_party/highway/hwy/detect_targets.h b/third_party/highway/hwy/detect_targets.h new file mode 100644 index 0000000000..2beca95bf5 --- /dev/null +++ b/third_party/highway/hwy/detect_targets.h @@ -0,0 +1,479 @@ +// Copyright 2021 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_DETECT_TARGETS_H_ +#define HIGHWAY_HWY_DETECT_TARGETS_H_ + +// Defines targets and chooses which to enable. + +#include "hwy/detect_compiler_arch.h" + +//------------------------------------------------------------------------------ +// Optional configuration + +// See g3doc/quick_reference.md for documentation of these macros. + +// Uncomment to override the default baseline determined from predefined macros: +// #define HWY_BASELINE_TARGETS (HWY_SSE4 | HWY_SCALAR) + +// Uncomment to override the default blocklist: +// #define HWY_BROKEN_TARGETS HWY_AVX3 + +// Uncomment to definitely avoid generating those target(s): +// #define HWY_DISABLED_TARGETS HWY_SSE4 + +// Uncomment to avoid emitting BMI/BMI2/FMA instructions (allows generating +// AVX2 target for VMs which support AVX2 but not the other instruction sets) +// #define HWY_DISABLE_BMI2_FMA + +// Uncomment to enable SSSE3/SSE4 on MSVC even if AVX is not enabled +// #define HWY_WANT_SSSE3 +// #define HWY_WANT_SSE4 + +//------------------------------------------------------------------------------ +// Targets + +// Unique bit value for each target. A lower value is "better" (e.g. more lanes) +// than a higher value within the same group/platform - see HWY_STATIC_TARGET. +// +// All values are unconditionally defined so we can test HWY_TARGETS without +// first checking the HWY_ARCH_*. +// +// The C99 preprocessor evaluates #if expressions using intmax_t types. This +// holds at least 64 bits in practice (verified 2022-07-18 via Godbolt on +// 32-bit clang/GCC/MSVC compilers for x86/Arm7/AArch32/RISC-V/WASM). We now +// avoid overflow when computing HWY_TARGETS (subtracting one instead of +// left-shifting 2^62), but still do not use bit 63 because it is the sign bit. + +// --------------------------- x86: 15 targets (+ one fallback) +// Bits 0..6 reserved (7 targets) +// Currently satisfiable by Ice Lake (VNNI, VPCLMULQDQ, VPOPCNTDQ, VBMI, VBMI2, +// VAES, BITALG). Later to be added: BF16 (Cooper Lake). VP2INTERSECT is only in +// Tiger Lake? We do not yet have uses for GFNI. +#define HWY_AVX3_DL (1LL << 7) // see HWY_WANT_AVX3_DL below +#define HWY_AVX3 (1LL << 8) +#define HWY_AVX2 (1LL << 9) +// Bit 10: reserved for AVX +#define HWY_SSE4 (1LL << 11) +#define HWY_SSSE3 (1LL << 12) +// Bits 13..14 reserved for SSE3 or SSE2 (2 targets) +// The highest bit in the HWY_TARGETS mask that a x86 target can have. Used for +// dynamic dispatch. All x86 target bits must be lower or equal to +// (1 << HWY_HIGHEST_TARGET_BIT_X86) and they can only use +// HWY_MAX_DYNAMIC_TARGETS in total. +#define HWY_HIGHEST_TARGET_BIT_X86 14 + +// --------------------------- Arm: 15 targets (+ one fallback) +// Bits 15..23 reserved (9 targets) +#define HWY_SVE2_128 (1LL << 24) // specialized target (e.g. Arm N2) +#define HWY_SVE_256 (1LL << 25) // specialized target (e.g. Arm V1) +#define HWY_SVE2 (1LL << 26) +#define HWY_SVE (1LL << 27) +#define HWY_NEON (1LL << 28) // On A64, includes/requires AES +// Bit 29 reserved (Helium?) +#define HWY_HIGHEST_TARGET_BIT_ARM 29 + +// --------------------------- RISC-V: 9 targets (+ one fallback) +// Bits 30..36 reserved (7 targets) +#define HWY_RVV (1LL << 37) +// Bit 38 reserved +#define HWY_HIGHEST_TARGET_BIT_RVV 38 + +// --------------------------- Future expansion: 4 targets +// Bits 39..42 reserved + + +// --------------------------- IBM Power: 9 targets (+ one fallback) +// Bits 43..48 reserved (6 targets) +#define HWY_PPC8 (1LL << 49) // v2.07 or 3 +// Bits 50..51 reserved for prior VSX/AltiVec (2 targets) +#define HWY_HIGHEST_TARGET_BIT_PPC 51 + +// --------------------------- WebAssembly: 9 targets (+ one fallback) +// Bits 52..57 reserved (6 targets) +#define HWY_WASM_EMU256 (1LL << 58) // Experimental +#define HWY_WASM (1LL << 59) +// Bits 60 reserved +#define HWY_HIGHEST_TARGET_BIT_WASM 60 + +// --------------------------- Emulation: 2 targets + +#define HWY_EMU128 (1LL << 61) +// We do not add/left-shift, so this will not overflow to a negative number. +#define HWY_SCALAR (1LL << 62) +#define HWY_HIGHEST_TARGET_BIT_SCALAR 62 + +// Do not use bit 63 - would be confusing to have negative numbers. + +//------------------------------------------------------------------------------ +// Set default blocklists + +// Disabled means excluded from enabled at user's request. A separate config +// macro allows disabling without deactivating the blocklist below. +#ifndef HWY_DISABLED_TARGETS +#define HWY_DISABLED_TARGETS 0 +#endif + +// Broken means excluded from enabled due to known compiler issues. Allow the +// user to override this blocklist without any guarantee of success. +#ifndef HWY_BROKEN_TARGETS + +// x86 clang-6: we saw multiple AVX2/3 compile errors and in one case invalid +// SSE4 codegen (possibly only for msan), so disable all those targets. +#if HWY_ARCH_X86 && (HWY_COMPILER_CLANG != 0 && HWY_COMPILER_CLANG < 700) +#define HWY_BROKEN_TARGETS (HWY_SSE4 | HWY_AVX2 | HWY_AVX3 | HWY_AVX3_DL) +// This entails a major speed reduction, so warn unless the user explicitly +// opts in to scalar-only. +#if !defined(HWY_COMPILE_ONLY_SCALAR) +#pragma message("x86 Clang <= 6: define HWY_COMPILE_ONLY_SCALAR or upgrade.") +#endif + +// 32-bit may fail to compile AVX2/3. +#elif HWY_ARCH_X86_32 +#define HWY_BROKEN_TARGETS (HWY_AVX2 | HWY_AVX3 | HWY_AVX3_DL) + +// MSVC AVX3 support is buggy: https://github.com/Mysticial/Flops/issues/16 +#elif HWY_COMPILER_MSVC != 0 +#define HWY_BROKEN_TARGETS (HWY_AVX3 | HWY_AVX3_DL) + +// armv7be has not been tested and is not yet supported. +#elif HWY_ARCH_ARM_V7 && \ + (defined(__ARM_BIG_ENDIAN) || \ + (defined(__BYTE_ORDER) && __BYTE_ORDER == __BIG_ENDIAN)) +#define HWY_BROKEN_TARGETS (HWY_NEON) + +// SVE[2] require recent clang or gcc versions. +#elif (HWY_COMPILER_CLANG && HWY_COMPILER_CLANG < 1100) || \ + (HWY_COMPILER_GCC_ACTUAL && HWY_COMPILER_GCC_ACTUAL < 1000) +#define HWY_BROKEN_TARGETS (HWY_SVE | HWY_SVE2 | HWY_SVE_256 | HWY_SVE2_128) + +#else +#define HWY_BROKEN_TARGETS 0 +#endif + +#endif // HWY_BROKEN_TARGETS + +// Enabled means not disabled nor blocklisted. +#define HWY_ENABLED(targets) \ + ((targets) & ~((HWY_DISABLED_TARGETS) | (HWY_BROKEN_TARGETS))) + +// Opt-out for EMU128 (affected by a GCC bug on multiple arches, fixed in 12.3: +// see https://gcc.gnu.org/bugzilla/show_bug.cgi?id=106322). This is separate +// from HWY_BROKEN_TARGETS because it affects the fallback target, which must +// always be enabled. If 1, we instead choose HWY_SCALAR even without +// HWY_COMPILE_ONLY_SCALAR being set. +#if !defined(HWY_BROKEN_EMU128) // allow overriding +#if (HWY_COMPILER_GCC_ACTUAL && HWY_COMPILER_GCC_ACTUAL < 1203) || \ + defined(HWY_NO_LIBCXX) +#define HWY_BROKEN_EMU128 1 +#else +#define HWY_BROKEN_EMU128 0 +#endif +#endif // HWY_BROKEN_EMU128 + +//------------------------------------------------------------------------------ +// Detect baseline targets using predefined macros + +// Baseline means the targets for which the compiler is allowed to generate +// instructions, implying the target CPU would have to support them. This does +// not take the blocklist into account. + +#if defined(HWY_COMPILE_ONLY_SCALAR) || HWY_BROKEN_EMU128 +#define HWY_BASELINE_SCALAR HWY_SCALAR +#else +#define HWY_BASELINE_SCALAR HWY_EMU128 +#endif + +// Also check HWY_ARCH to ensure that simulating unknown platforms ends up with +// HWY_TARGET == HWY_BASELINE_SCALAR. + +#if HWY_ARCH_WASM && defined(__wasm_simd128__) +#if defined(HWY_WANT_WASM2) +#define HWY_BASELINE_WASM HWY_WASM_EMU256 +#else +#define HWY_BASELINE_WASM HWY_WASM +#endif // HWY_WANT_WASM2 +#else +#define HWY_BASELINE_WASM 0 +#endif + +// Avoid choosing the PPC target until we have an implementation. +#if HWY_ARCH_PPC && defined(__VSX__) && 0 +#define HWY_BASELINE_PPC8 HWY_PPC8 +#else +#define HWY_BASELINE_PPC8 0 +#endif + +#define HWY_BASELINE_SVE2 0 +#define HWY_BASELINE_SVE 0 +#define HWY_BASELINE_NEON 0 + +#if HWY_ARCH_ARM + +#if defined(__ARM_FEATURE_SVE2) +#undef HWY_BASELINE_SVE2 // was 0, will be re-defined +// If user specified -msve-vector-bits=128, they assert the vector length is +// 128 bits and we should use the HWY_SVE2_128 (more efficient for some ops). +#if defined(__ARM_FEATURE_SVE_BITS) && __ARM_FEATURE_SVE_BITS == 128 +#define HWY_BASELINE_SVE2 HWY_SVE2_128 +// Otherwise we're not sure what the vector length will be. The baseline must be +// unconditionally valid, so we can only assume HWY_SVE2. However, when running +// on a CPU with 128-bit vectors, user code that supports dynamic dispatch will +// still benefit from HWY_SVE2_128 because we add it to HWY_ATTAINABLE_TARGETS. +#else +#define HWY_BASELINE_SVE2 HWY_SVE2 +#endif // __ARM_FEATURE_SVE_BITS +#endif // __ARM_FEATURE_SVE2 + +#if defined(__ARM_FEATURE_SVE) +#undef HWY_BASELINE_SVE // was 0, will be re-defined +// See above. If user-specified vector length matches our optimization, use it. +#if defined(__ARM_FEATURE_SVE_BITS) && __ARM_FEATURE_SVE_BITS == 256 +#define HWY_BASELINE_SVE HWY_SVE_256 +#else +#define HWY_BASELINE_SVE HWY_SVE +#endif // __ARM_FEATURE_SVE_BITS +#endif // __ARM_FEATURE_SVE + +// GCC 4.5.4 only defines __ARM_NEON__; 5.4 defines both. +#if defined(__ARM_NEON__) || defined(__ARM_NEON) +#undef HWY_BASELINE_NEON +#define HWY_BASELINE_NEON HWY_NEON +#endif + +#endif // HWY_ARCH_ARM + +// Special handling for MSVC because it has fewer predefined macros: +#if HWY_COMPILER_MSVC + +// 1) We can only be sure SSSE3/SSE4 are enabled if AVX is: +// https://stackoverflow.com/questions/18563978/. +#if defined(__AVX__) +#define HWY_CHECK_SSSE3 1 +#define HWY_CHECK_SSE4 1 +#else +#define HWY_CHECK_SSSE3 0 +#define HWY_CHECK_SSE4 0 +#endif + +// 2) Cannot check for PCLMUL/AES and BMI2/FMA/F16C individually; we assume +// PCLMUL/AES are available if SSE4 is, and BMI2/FMA/F16C if AVX2 is. +#define HWY_CHECK_PCLMUL_AES 1 +#define HWY_CHECK_BMI2_FMA 1 +#define HWY_CHECK_F16C 1 + +#else // non-MSVC + +#if defined(__SSSE3__) +#define HWY_CHECK_SSSE3 1 +#else +#define HWY_CHECK_SSSE3 0 +#endif + +#if defined(__SSE4_1__) && defined(__SSE4_2__) +#define HWY_CHECK_SSE4 1 +#else +#define HWY_CHECK_SSE4 0 +#endif + +// If these are disabled, they should not gate the availability of SSE4/AVX2. +#if defined(HWY_DISABLE_PCLMUL_AES) || (defined(__PCLMUL__) && defined(__AES__)) +#define HWY_CHECK_PCLMUL_AES 1 +#else +#define HWY_CHECK_PCLMUL_AES 0 +#endif + +#if defined(HWY_DISABLE_BMI2_FMA) || (defined(__BMI2__) && defined(__FMA__)) +#define HWY_CHECK_BMI2_FMA 1 +#else +#define HWY_CHECK_BMI2_FMA 0 +#endif + +#if defined(HWY_DISABLE_F16C) || defined(__F16C__) +#define HWY_CHECK_F16C 1 +#else +#define HWY_CHECK_F16C 0 +#endif + +#endif // non-MSVC + +#if HWY_ARCH_X86 && (HWY_WANT_SSSE3 || HWY_CHECK_SSSE3) +#define HWY_BASELINE_SSSE3 HWY_SSSE3 +#else +#define HWY_BASELINE_SSSE3 0 +#endif + +#if HWY_ARCH_X86 && (HWY_WANT_SSE4 || (HWY_CHECK_SSE4 && HWY_CHECK_PCLMUL_AES)) +#define HWY_BASELINE_SSE4 HWY_SSE4 +#else +#define HWY_BASELINE_SSE4 0 +#endif + +#if HWY_BASELINE_SSE4 != 0 && HWY_CHECK_BMI2_FMA && HWY_CHECK_F16C && \ + defined(__AVX2__) +#define HWY_BASELINE_AVX2 HWY_AVX2 +#else +#define HWY_BASELINE_AVX2 0 +#endif + +// Require everything in AVX2 plus AVX-512 flags (also set by MSVC) +#if HWY_BASELINE_AVX2 != 0 && defined(__AVX512F__) && defined(__AVX512BW__) && \ + defined(__AVX512DQ__) && defined(__AVX512VL__) +#define HWY_BASELINE_AVX3 HWY_AVX3 +#else +#define HWY_BASELINE_AVX3 0 +#endif + +// TODO(janwas): not yet known whether these will be set by MSVC +#if HWY_BASELINE_AVX3 != 0 && defined(__AVXVNNI__) && defined(__VAES__) && \ + defined(__VPCLMULQDQ__) && defined(__AVX512VBMI__) && \ + defined(__AVX512VBMI2__) && defined(__AVX512VPOPCNTDQ__) && \ + defined(__AVX512BITALG__) +#define HWY_BASELINE_AVX3_DL HWY_AVX3_DL +#else +#define HWY_BASELINE_AVX3_DL 0 +#endif + +#if HWY_ARCH_RVV && defined(__riscv_vector) +#define HWY_BASELINE_RVV HWY_RVV +#else +#define HWY_BASELINE_RVV 0 +#endif + +// Allow the user to override this without any guarantee of success. +#ifndef HWY_BASELINE_TARGETS +#define HWY_BASELINE_TARGETS \ + (HWY_BASELINE_SCALAR | HWY_BASELINE_WASM | HWY_BASELINE_PPC8 | \ + HWY_BASELINE_SVE2 | HWY_BASELINE_SVE | HWY_BASELINE_NEON | \ + HWY_BASELINE_SSSE3 | HWY_BASELINE_SSE4 | HWY_BASELINE_AVX2 | \ + HWY_BASELINE_AVX3 | HWY_BASELINE_AVX3_DL | HWY_BASELINE_RVV) +#endif // HWY_BASELINE_TARGETS + +//------------------------------------------------------------------------------ +// Choose target for static dispatch + +#define HWY_ENABLED_BASELINE HWY_ENABLED(HWY_BASELINE_TARGETS) +#if HWY_ENABLED_BASELINE == 0 +#error "At least one baseline target must be defined and enabled" +#endif + +// Best baseline, used for static dispatch. This is the least-significant 1-bit +// within HWY_ENABLED_BASELINE and lower bit values imply "better". +#define HWY_STATIC_TARGET (HWY_ENABLED_BASELINE & -HWY_ENABLED_BASELINE) + +// Start by assuming static dispatch. If we later use dynamic dispatch, this +// will be defined to other targets during the multiple-inclusion, and finally +// return to the initial value. Defining this outside begin/end_target ensures +// inl headers successfully compile by themselves (required by Bazel). +#define HWY_TARGET HWY_STATIC_TARGET + +//------------------------------------------------------------------------------ +// Choose targets for dynamic dispatch according to one of four policies + +#if 1 < (defined(HWY_COMPILE_ONLY_SCALAR) + defined(HWY_COMPILE_ONLY_EMU128) + \ + defined(HWY_COMPILE_ONLY_STATIC)) +#error "Can only define one of HWY_COMPILE_ONLY_{SCALAR|EMU128|STATIC} - bug?" +#endif +// Defining one of HWY_COMPILE_ONLY_* will trump HWY_COMPILE_ALL_ATTAINABLE. + +// Clang, GCC and MSVC allow runtime dispatch on x86. +#if HWY_ARCH_X86 +#define HWY_HAVE_RUNTIME_DISPATCH 1 +// On Arm, currently only GCC does, and we require Linux to detect CPU +// capabilities. +#elif HWY_ARCH_ARM && HWY_COMPILER_GCC_ACTUAL && HWY_OS_LINUX && !defined(TOOLCHAIN_MISS_SYS_AUXV_H) +#define HWY_HAVE_RUNTIME_DISPATCH 1 +#else +#define HWY_HAVE_RUNTIME_DISPATCH 0 +#endif + +// AVX3_DL is not widely available yet. To reduce code size and compile time, +// only include it in the set of attainable targets (for dynamic dispatch) if +// the user opts in, OR it is in the baseline (we check whether enabled below). +#if defined(HWY_WANT_AVX3_DL) || (HWY_BASELINE & HWY_AVX3_DL) +#define HWY_ATTAINABLE_AVX3_DL HWY_AVX3_DL +#else +#define HWY_ATTAINABLE_AVX3_DL 0 +#endif + +#if HWY_ARCH_ARM_A64 && (HWY_HAVE_RUNTIME_DISPATCH || \ + (HWY_ENABLED_BASELINE & (HWY_SVE | HWY_SVE_256))) +#define HWY_ATTAINABLE_SVE HWY_ENABLED(HWY_SVE | HWY_SVE_256) +#else +#define HWY_ATTAINABLE_SVE 0 +#endif + +#if HWY_ARCH_ARM_A64 && (HWY_HAVE_RUNTIME_DISPATCH || \ + (HWY_ENABLED_BASELINE & (HWY_SVE2 | HWY_SVE2_128))) +#define HWY_ATTAINABLE_SVE2 HWY_ENABLED(HWY_SVE2 | HWY_SVE2_128) +#else +#define HWY_ATTAINABLE_SVE2 0 +#endif + +// Attainable means enabled and the compiler allows intrinsics (even when not +// allowed to autovectorize). Used in 3 and 4. +#if HWY_ARCH_X86 +#define HWY_ATTAINABLE_TARGETS \ + HWY_ENABLED(HWY_BASELINE_SCALAR | HWY_SSSE3 | HWY_SSE4 | HWY_AVX2 | \ + HWY_AVX3 | HWY_ATTAINABLE_AVX3_DL) +#elif HWY_ARCH_ARM && HWY_HAVE_RUNTIME_DISPATCH +#define HWY_ATTAINABLE_TARGETS \ + HWY_ENABLED(HWY_BASELINE_SCALAR | HWY_NEON | HWY_ATTAINABLE_SVE | \ + HWY_ATTAINABLE_SVE2) +#else +#define HWY_ATTAINABLE_TARGETS \ + (HWY_ENABLED_BASELINE | HWY_ATTAINABLE_SVE | HWY_ATTAINABLE_SVE2) +#endif + +// 1) For older compilers: avoid SIMD intrinsics, but still support all ops. +#if defined(HWY_COMPILE_ONLY_EMU128) && !HWY_BROKEN_EMU128 +#undef HWY_STATIC_TARGET +#define HWY_STATIC_TARGET HWY_EMU128 // override baseline +#define HWY_TARGETS HWY_EMU128 + +// 1b) HWY_SCALAR is less capable than HWY_EMU128 (which supports all ops), but +// we currently still support it for backwards compatibility. +#elif defined(HWY_COMPILE_ONLY_SCALAR) || \ + (defined(HWY_COMPILE_ONLY_EMU128) && HWY_BROKEN_EMU128) +#undef HWY_STATIC_TARGET +#define HWY_STATIC_TARGET HWY_SCALAR // override baseline +#define HWY_TARGETS HWY_SCALAR + +// 2) For forcing static dispatch without code changes (removing HWY_EXPORT) +#elif defined(HWY_COMPILE_ONLY_STATIC) +#define HWY_TARGETS HWY_STATIC_TARGET + +// 3) For tests: include all attainable targets (in particular: scalar) +#elif defined(HWY_COMPILE_ALL_ATTAINABLE) || defined(HWY_IS_TEST) +#define HWY_TARGETS HWY_ATTAINABLE_TARGETS + +// 4) Default: attainable WITHOUT non-best baseline. This reduces code size by +// excluding superseded targets, in particular scalar. Note: HWY_STATIC_TARGET +// may be 2^62 (HWY_SCALAR), so we must not left-shift/add it. Subtracting one +// sets all lower bits (better targets), then we also include the static target. +#else +#define HWY_TARGETS \ + (HWY_ATTAINABLE_TARGETS & ((HWY_STATIC_TARGET - 1LL) | HWY_STATIC_TARGET)) + +#endif // target policy + +// HWY_ONCE and the multiple-inclusion mechanism rely on HWY_STATIC_TARGET being +// one of the dynamic targets. This also implies HWY_TARGETS != 0 and +// (HWY_TARGETS & HWY_ENABLED_BASELINE) != 0. +#if (HWY_TARGETS & HWY_STATIC_TARGET) == 0 +#error "Logic error: best baseline should be included in dynamic targets" +#endif + +#endif // HIGHWAY_HWY_DETECT_TARGETS_H_ |