base/strings/strcat_internal.h - googleurl - Git at Google

 // Copyright 2020 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_STRINGS_STRCAT_INTERNAL_H_
 #define BASE_STRINGS_STRCAT_INTERNAL_H_

 #include <string>

 #include "base/containers/span.h"
 #include "base/template_util.h"

 namespace gurl_base {

 namespace internal {

 // Optimized version of `std::basic_string::resize()` that skips zero
 // initialization of appended characters. Reading from the newly allocated
 // characters results in undefined behavior if they are not explicitly
 // initialized afterwards. Currently proposed for standardization as
 // std::basic_string::resize_and_overwrite: https://wg21.link/P1072R6
 template <typename CharT>
 auto Resize(std::basic_string<CharT>& str, size_t total_size, priority_tag<1>)
     -> decltype(str.__resize_default_init(total_size)) {
   str.__resize_default_init(total_size);
 }

 // Fallback to regular std::basic_string::resize() if invoking
 // __resize_default_init is ill-formed.
 template <typename CharT>
 void Resize(std::basic_string<CharT>& str, size_t total_size, priority_tag<0>) {
   str.resize(total_size);
 }

 // Appends `pieces` to `dest`. Instead of simply calling `dest.append()`
 // `pieces.size()` times, this method first resizes `dest` to be of the desired
 // size, and then appends each piece via `std::char_traits::copy`. This achieves
 // two goals:
 // 1) Allocating the desired size all at once avoids other allocations that
 //    could happen if intermediate allocations did not reserve enough capacity.
 // 2) Invoking std::char_traits::copy instead of std::basic_string::append
 //    avoids having to write the terminating '\0' character n times.
 template <typename CharT, typename StringT>
 void StrAppendT(std::basic_string<CharT>& dest, span<const StringT> pieces) {
   const size_t initial_size = dest.size();
   size_t total_size = initial_size;
   for (const auto& cur : pieces)
     total_size += cur.size();

   // Note: As opposed to `reserve()` calling `resize()` with an argument smaller
   // than the current `capacity()` does not result in the string releasing spare
   // capacity. Furthermore, common std::string implementations apply a geometric
   // growth strategy if the current capacity is not sufficient for the newly
   // added characters. Since this codepath is also triggered by `resize()`, we
   // don't have to manage the std::string's capacity ourselves here to avoid
   // performance hits in case `StrAppend()` gets called in a loop.
   Resize(dest, total_size, priority_tag<1>());
   CharT* dest_char = &dest[initial_size];
   for (const auto& cur : pieces) {
     std::char_traits<CharT>::copy(dest_char, cur.data(), cur.size());
     dest_char += cur.size();
   }
 }

 template <typename StringT>
 auto StrCatT(span<const StringT> pieces) {
   std::basic_string<typename StringT::value_type> result;
   StrAppendT(result, pieces);
   return result;
 }

 }  // namespace internal

 }  // namespace base

 #endif  // BASE_STRINGS_STRCAT_INTERNAL_H_
	// Copyright 2020 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_STRINGS_STRCAT_INTERNAL_H_
	#define BASE_STRINGS_STRCAT_INTERNAL_H_

	#include <string>

	#include "base/containers/span.h"
	#include "base/template_util.h"

	namespace gurl_base {

	namespace internal {

	// Optimized version of `std::basic_string::resize()` that skips zero
	// initialization of appended characters. Reading from the newly allocated
	// characters results in undefined behavior if they are not explicitly
	// initialized afterwards. Currently proposed for standardization as
	// std::basic_string::resize_and_overwrite: https://wg21.link/P1072R6
	template <typename CharT>
	auto Resize(std::basic_string<CharT>& str, size_t total_size, priority_tag<1>)
	-> decltype(str.__resize_default_init(total_size)) {
	str.__resize_default_init(total_size);
	}

	// Fallback to regular std::basic_string::resize() if invoking
	// __resize_default_init is ill-formed.
	template <typename CharT>
	void Resize(std::basic_string<CharT>& str, size_t total_size, priority_tag<0>) {
	str.resize(total_size);
	}

	// Appends `pieces` to `dest`. Instead of simply calling `dest.append()`
	// `pieces.size()` times, this method first resizes `dest` to be of the desired
	// size, and then appends each piece via `std::char_traits::copy`. This achieves
	// two goals:
	// 1) Allocating the desired size all at once avoids other allocations that
	// could happen if intermediate allocations did not reserve enough capacity.
	// 2) Invoking std::char_traits::copy instead of std::basic_string::append
	// avoids having to write the terminating '\0' character n times.
	template <typename CharT, typename StringT>
	void StrAppendT(std::basic_string<CharT>& dest, span<const StringT> pieces) {
	const size_t initial_size = dest.size();
	size_t total_size = initial_size;
	for (const auto& cur : pieces)
	total_size += cur.size();

	// Note: As opposed to `reserve()` calling `resize()` with an argument smaller
	// than the current `capacity()` does not result in the string releasing spare
	// capacity. Furthermore, common std::string implementations apply a geometric
	// growth strategy if the current capacity is not sufficient for the newly
	// added characters. Since this codepath is also triggered by `resize()`, we
	// don't have to manage the std::string's capacity ourselves here to avoid
	// performance hits in case `StrAppend()` gets called in a loop.
	Resize(dest, total_size, priority_tag<1>());
	CharT* dest_char = &dest[initial_size];
	for (const auto& cur : pieces) {
	std::char_traits<CharT>::copy(dest_char, cur.data(), cur.size());
	dest_char += cur.size();
	}
	}

	template <typename StringT>
	auto StrCatT(span<const StringT> pieces) {
	std::basic_string<typename StringT::value_type> result;
	StrAppendT(result, pieces);
	return result;
	}

	} // namespace internal

	} // namespace base

	#endif // BASE_STRINGS_STRCAT_INTERNAL_H_