copy-inl.h - mozsearch

Enable keyboard shortcuts

// Copyright 2022 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.

// Per-target include guard

#if defined(HIGHWAY_HWY_CONTRIB_ALGO_COPY_INL_H_) == \

    defined(HWY_TARGET_TOGGLE)  // NOLINT

#ifdef HIGHWAY_HWY_CONTRIB_ALGO_COPY_INL_H_

#undef HIGHWAY_HWY_CONTRIB_ALGO_COPY_INL_H_

#else

#define HIGHWAY_HWY_CONTRIB_ALGO_COPY_INL_H_

#endif

#include <stddef.h>

#include <stdint.h>

#include "hwy/highway.h"

HWY_BEFORE_NAMESPACE();

namespace hwy {

namespace HWY_NAMESPACE {

// These functions avoid having to write a loop plus remainder handling in the

// (unfortunately still common) case where arrays are not aligned/padded. If the

// inputs are known to be aligned/padded, it is more efficient to write a single

// loop using Load(). We do not provide a CopyAlignedPadded because it

// would be more verbose than such a loop.

// Fills `to`[0, `count`) with `value`.

template <class D, typename T = TFromD<D>>

void Fill(D d, T value, size_t count, T* HWY_RESTRICT to) {

  const size_t N = Lanes(d);

  const Vec<D> v = Set(d, value);

  size_t idx = 0;

  if (count >= N) {

    for (; idx <= count - N; idx += N) {

      StoreU(v, d, to + idx);

  // `count` was a multiple of the vector length `N`: already done.

  if (HWY_UNLIKELY(idx == count)) return;

  const size_t remaining = count - idx;

  HWY_DASSERT(0 != remaining && remaining < N);

  SafeFillN(remaining, value, d, to + idx);

// Copies `from`[0, `count`) to `to`, which must not overlap `from`.

template <class D, typename T = TFromD<D>>

void Copy(D d, const T* HWY_RESTRICT from, size_t count, T* HWY_RESTRICT to) {

  const size_t N = Lanes(d);

  size_t idx = 0;

  if (count >= N) {

    for (; idx <= count - N; idx += N) {

      const Vec<D> v = LoadU(d, from + idx);

      StoreU(v, d, to + idx);

  // `count` was a multiple of the vector length `N`: already done.

  if (HWY_UNLIKELY(idx == count)) return;

  const size_t remaining = count - idx;

  HWY_DASSERT(0 != remaining && remaining < N);

  SafeCopyN(remaining, d, from + idx, to + idx);

// For idx in [0, count) in ascending order, appends `from[idx]` to `to` if the

// corresponding mask element of `func(d, v)` is true. Returns the STL-style end

// of the newly written elements in `to`.

//

// `func` is either a functor with a templated operator()(d, v) returning a

// mask, or a generic lambda if using C++14. Due to apparent limitations of

// Clang on Windows, it is currently necessary to add HWY_ATTR before the

// opening { of the lambda to avoid errors about "function .. requires target".

//

// NOTE: this is only supported for 16-, 32- or 64-bit types.

// NOTE: Func may be called a second time for elements it has already seen, but

// these elements will not be written to `to` again.

template <class D, class Func, typename T = TFromD<D>>

T* CopyIf(D d, const T* HWY_RESTRICT from, size_t count, T* HWY_RESTRICT to,

          const Func& func) {

  const size_t N = Lanes(d);

  size_t idx = 0;

  if (count >= N) {

    for (; idx <= count - N; idx += N) {

      const Vec<D> v = LoadU(d, from + idx);

      to += CompressBlendedStore(v, func(d, v), d, to);

  // `count` was a multiple of the vector length `N`: already done.

  if (HWY_UNLIKELY(idx == count)) return to;

#if HWY_MEM_OPS_MIGHT_FAULT

  // Proceed one by one.

  const CappedTag<T, 1> d1;

  for (; idx < count; ++idx) {

    using V1 = Vec<decltype(d1)>;

    // Workaround for -Waggressive-loop-optimizations on GCC 8

    // (iteration 2305843009213693951 invokes undefined behavior for T=i64)

    const uintptr_t addr = reinterpret_cast<uintptr_t>(from);

    const T* HWY_RESTRICT from_idx =

        reinterpret_cast<const T * HWY_RESTRICT>(addr + (idx * sizeof(T)));

    const V1 v = LoadU(d1, from_idx);

    // Avoid storing to `to` unless we know it should be kept - otherwise, we

    // might overrun the end if it was allocated for the exact count.

    if (CountTrue(d1, func(d1, v)) == 0) continue;

    StoreU(v, d1, to);

    to += 1;

#else

  // Start index of the last unaligned whole vector, ending at the array end.

  const size_t last = count - N;

  // Number of elements before `from` or already written.

  const size_t invalid = idx - last;

  HWY_DASSERT(0 != invalid && invalid < N);

  const Mask<D> mask = Not(FirstN(d, invalid));

  const Vec<D> v = MaskedLoad(mask, d, from + last);

  to += CompressBlendedStore(v, And(mask, func(d, v)), d, to);

#endif

  return to;

// NOLINTNEXTLINE(google-readability-namespace-comments)

}  // namespace HWY_NAMESPACE

}  // namespace hwy

HWY_AFTER_NAMESPACE();

#endif  // HIGHWAY_HWY_CONTRIB_ALGO_COPY_INL_H_