Abseil Common Libraries (C++) (grcp 依赖) https://abseil.io/
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Export of internal Abseil changes -- f012012ef78234a6a4585321b67d7b7c92ebc266 by Laramie Leavitt <lar@google.com>: Slight restructuring of absl/random/internal randen implementation. Convert round-keys.inc into randen_round_keys.cc file. Consistently use a 128-bit pointer type for internal method parameters. This allows simpler pointer arithmetic in C++ & permits removal of some constants and casts. Remove some redundancy in comments & constexpr variables. Specifically, all references to Randen algorithm parameters use RandenTraits; duplication in RandenSlow removed. PiperOrigin-RevId: 312190313 -- dc8b42e054046741e9ed65335bfdface997c6063 by Abseil Team <absl-team@google.com>: Internal change. PiperOrigin-RevId: 312167304 -- f13d248fafaf206492c1362c3574031aea3abaf7 by Matthew Brown <matthewbr@google.com>: Cleanup StrFormat extensions a little. PiperOrigin-RevId: 312166336 -- 9d9117589667afe2332bb7ad42bc967ca7c54502 by Derek Mauro <dmauro@google.com>: Internal change PiperOrigin-RevId: 312105213 -- 9a12b9b3aa0e59b8ee6cf9408ed0029045543a9b by Abseil Team <absl-team@google.com>: Complete IGNORE_TYPE macro renaming. PiperOrigin-RevId: 311999699 -- 64756f20d61021d999bd0d4c15e9ad3857382f57 by Gennadiy Rozental <rogeeff@google.com>: Switch to fixed bytes specific default value. This fixes the Abseil Flags for big endian platforms. PiperOrigin-RevId: 311844448 -- bdbe6b5b29791dbc3816ada1828458b3010ff1e9 by Laramie Leavitt <lar@google.com>: Change many distribution tests to use pcg_engine as a deterministic source of entropy. It's reasonable to test that the BitGen itself has good entropy, however when testing the cross product of all random distributions x all the architecture variations x all submitted changes results in a large number of tests. In order to account for these failures while still using good entropy requires that our allowed sigma need to account for all of these independent tests. Our current sigma values are too restrictive, and we see a lot of failures, so we have to either relax the sigma values or convert some of the statistical tests to use deterministic values. This changelist does the latter. PiperOrigin-RevId: 311840096 GitOrigin-RevId: f012012ef78234a6a4585321b67d7b7c92ebc266 Change-Id: Ic84886f38ff30d7d72c126e9b63c9a61eb729a1a
5 years ago
//
// Copyright 2017 The Abseil Authors.
//
// 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
//
// https://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.
//
// -----------------------------------------------------------------------------
// File: str_cat.h
// -----------------------------------------------------------------------------
//
// This package contains functions for efficiently concatenating and appending
// strings: `StrCat()` and `StrAppend()`. Most of the work within these routines
// is actually handled through use of a special AlphaNum type, which was
// designed to be used as a parameter type that efficiently manages conversion
// to strings and avoids copies in the above operations.
//
// Any routine accepting either a string or a number may accept `AlphaNum`.
// The basic idea is that by accepting a `const AlphaNum &` as an argument
// to your function, your callers will automagically convert bools, integers,
// and floating point values to strings for you.
//
// NOTE: Use of `AlphaNum` outside of the //absl/strings package is unsupported
// except for the specific case of function parameters of type `AlphaNum` or
// `const AlphaNum &`. In particular, instantiating `AlphaNum` directly as a
// stack variable is not supported.
//
// Conversion from 8-bit values is not accepted because, if it were, then an
// attempt to pass ':' instead of ":" might result in a 58 ending up in your
// result.
//
// Bools convert to "0" or "1". Pointers to types other than `char *` are not
// valid inputs. No output is generated for null `char *` pointers.
//
// Floating point numbers are formatted with six-digit precision, which is
// the default for "std::cout <<" or printf "%g" (the same as "%.6g").
//
// You can convert to hexadecimal output rather than decimal output using the
// `Hex` type contained here. To do so, pass `Hex(my_int)` as a parameter to
// `StrCat()` or `StrAppend()`. You may specify a minimum hex field width using
// a `PadSpec` enum.
//
// -----------------------------------------------------------------------------
#ifndef ABSL_STRINGS_STR_CAT_H_
#define ABSL_STRINGS_STR_CAT_H_
#include <array>
#include <cstdint>
#include <string>
#include <type_traits>
#include <vector>
#include "absl/base/port.h"
#include "absl/strings/numbers.h"
#include "absl/strings/string_view.h"
namespace absl {
ABSL_NAMESPACE_BEGIN
namespace strings_internal {
// AlphaNumBuffer allows a way to pass a string to StrCat without having to do
// memory allocation. It is simply a pair of a fixed-size character array, and
// a size. Please don't use outside of absl, yet.
template <size_t max_size>
struct AlphaNumBuffer {
std::array<char, max_size> data;
size_t size;
};
} // namespace strings_internal
// Enum that specifies the number of significant digits to return in a `Hex` or
// `Dec` conversion and fill character to use. A `kZeroPad2` value, for example,
// would produce hexadecimal strings such as "0a","0f" and a 'kSpacePad5' value
// would produce hexadecimal strings such as " a"," f".
enum PadSpec : uint8_t {
kNoPad = 1,
kZeroPad2,
kZeroPad3,
kZeroPad4,
kZeroPad5,
kZeroPad6,
kZeroPad7,
kZeroPad8,
kZeroPad9,
kZeroPad10,
kZeroPad11,
kZeroPad12,
kZeroPad13,
kZeroPad14,
kZeroPad15,
kZeroPad16,
kZeroPad17,
kZeroPad18,
kZeroPad19,
kZeroPad20,
kSpacePad2 = kZeroPad2 + 64,
kSpacePad3,
kSpacePad4,
kSpacePad5,
kSpacePad6,
kSpacePad7,
kSpacePad8,
kSpacePad9,
kSpacePad10,
kSpacePad11,
kSpacePad12,
kSpacePad13,
kSpacePad14,
kSpacePad15,
kSpacePad16,
kSpacePad17,
kSpacePad18,
kSpacePad19,
kSpacePad20,
};
// -----------------------------------------------------------------------------
// Hex
// -----------------------------------------------------------------------------
//
// `Hex` stores a set of hexadecimal string conversion parameters for use
// within `AlphaNum` string conversions.
struct Hex {
uint64_t value;
uint8_t width;
char fill;
template <typename Int>
explicit Hex(
Int v, PadSpec spec = absl::kNoPad,
typename std::enable_if<sizeof(Int) == 1 &&
!std::is_pointer<Int>::value>::type* = nullptr)
: Hex(spec, static_cast<uint8_t>(v)) {}
template <typename Int>
explicit Hex(
Int v, PadSpec spec = absl::kNoPad,
typename std::enable_if<sizeof(Int) == 2 &&
!std::is_pointer<Int>::value>::type* = nullptr)
: Hex(spec, static_cast<uint16_t>(v)) {}
template <typename Int>
explicit Hex(
Int v, PadSpec spec = absl::kNoPad,
typename std::enable_if<sizeof(Int) == 4 &&
!std::is_pointer<Int>::value>::type* = nullptr)
: Hex(spec, static_cast<uint32_t>(v)) {}
template <typename Int>
explicit Hex(
Int v, PadSpec spec = absl::kNoPad,
typename std::enable_if<sizeof(Int) == 8 &&
!std::is_pointer<Int>::value>::type* = nullptr)
: Hex(spec, static_cast<uint64_t>(v)) {}
template <typename Pointee>
explicit Hex(Pointee* v, PadSpec spec = absl::kNoPad)
: Hex(spec, reinterpret_cast<uintptr_t>(v)) {}
private:
Hex(PadSpec spec, uint64_t v)
: value(v),
width(spec == absl::kNoPad
? 1
: spec >= absl::kSpacePad2 ? spec - absl::kSpacePad2 + 2
: spec - absl::kZeroPad2 + 2),
fill(spec >= absl::kSpacePad2 ? ' ' : '0') {}
};
// -----------------------------------------------------------------------------
// Dec
// -----------------------------------------------------------------------------
//
// `Dec` stores a set of decimal string conversion parameters for use
// within `AlphaNum` string conversions. Dec is slower than the default
// integer conversion, so use it only if you need padding.
struct Dec {
uint64_t value;
uint8_t width;
char fill;
bool neg;
template <typename Int>
explicit Dec(Int v, PadSpec spec = absl::kNoPad,
typename std::enable_if<(sizeof(Int) <= 8)>::type* = nullptr)
: value(v >= 0 ? static_cast<uint64_t>(v)
: uint64_t{0} - static_cast<uint64_t>(v)),
width(spec == absl::kNoPad
? 1
: spec >= absl::kSpacePad2 ? spec - absl::kSpacePad2 + 2
: spec - absl::kZeroPad2 + 2),
fill(spec >= absl::kSpacePad2 ? ' ' : '0'),
neg(v < 0) {}
};
// -----------------------------------------------------------------------------
// AlphaNum
// -----------------------------------------------------------------------------
//
// The `AlphaNum` class acts as the main parameter type for `StrCat()` and
// `StrAppend()`, providing efficient conversion of numeric, boolean, and
// hexadecimal values (through the `Hex` type) into strings.
class AlphaNum {
public:
// No bool ctor -- bools convert to an integral type.
// A bool ctor would also convert incoming pointers (bletch).
AlphaNum(int x) // NOLINT(runtime/explicit)
: piece_(digits_,
numbers_internal::FastIntToBuffer(x, digits_) - &digits_[0]) {}
AlphaNum(unsigned int x) // NOLINT(runtime/explicit)
: piece_(digits_,
numbers_internal::FastIntToBuffer(x, digits_) - &digits_[0]) {}
AlphaNum(long x) // NOLINT(*)
: piece_(digits_,
numbers_internal::FastIntToBuffer(x, digits_) - &digits_[0]) {}
AlphaNum(unsigned long x) // NOLINT(*)
: piece_(digits_,
numbers_internal::FastIntToBuffer(x, digits_) - &digits_[0]) {}
AlphaNum(long long x) // NOLINT(*)
: piece_(digits_,
numbers_internal::FastIntToBuffer(x, digits_) - &digits_[0]) {}
AlphaNum(unsigned long long x) // NOLINT(*)
: piece_(digits_,
numbers_internal::FastIntToBuffer(x, digits_) - &digits_[0]) {}
AlphaNum(float f) // NOLINT(runtime/explicit)
: piece_(digits_, numbers_internal::SixDigitsToBuffer(f, digits_)) {}
AlphaNum(double f) // NOLINT(runtime/explicit)
: piece_(digits_, numbers_internal::SixDigitsToBuffer(f, digits_)) {}
AlphaNum(Hex hex); // NOLINT(runtime/explicit)
AlphaNum(Dec dec); // NOLINT(runtime/explicit)
template <size_t size>
AlphaNum( // NOLINT(runtime/explicit)
const strings_internal::AlphaNumBuffer<size>& buf)
: piece_(&buf.data[0], buf.size) {}
AlphaNum(const char* c_str) : piece_(c_str) {} // NOLINT(runtime/explicit)
AlphaNum(absl::string_view pc) : piece_(pc) {} // NOLINT(runtime/explicit)
template <typename Allocator>
AlphaNum( // NOLINT(runtime/explicit)
const std::basic_string<char, std::char_traits<char>, Allocator>& str)
: piece_(str) {}
// Use string literals ":" instead of character literals ':'.
AlphaNum(char c) = delete; // NOLINT(runtime/explicit)
AlphaNum(const AlphaNum&) = delete;
AlphaNum& operator=(const AlphaNum&) = delete;
absl::string_view::size_type size() const { return piece_.size(); }
const char* data() const { return piece_.data(); }
absl::string_view Piece() const { return piece_; }
// Normal enums are already handled by the integer formatters.
// This overload matches only scoped enums.
template <typename T,
typename = typename std::enable_if<
std::is_enum<T>{} && !std::is_convertible<T, int>{}>::type>
AlphaNum(T e) // NOLINT(runtime/explicit)
: AlphaNum(static_cast<typename std::underlying_type<T>::type>(e)) {}
// vector<bool>::reference and const_reference require special help to
// convert to `AlphaNum` because it requires two user defined conversions.
template <
typename T,
typename std::enable_if<
std::is_class<T>::value &&
(std::is_same<T, std::vector<bool>::reference>::value ||
std::is_same<T, std::vector<bool>::const_reference>::value)>::type* =
nullptr>
AlphaNum(T e) : AlphaNum(static_cast<bool>(e)) {} // NOLINT(runtime/explicit)
private:
absl::string_view piece_;
char digits_[numbers_internal::kFastToBufferSize];
};
// -----------------------------------------------------------------------------
// StrCat()
// -----------------------------------------------------------------------------
//
// Merges given strings or numbers, using no delimiter(s), returning the merged
// result as a string.
//
// `StrCat()` is designed to be the fastest possible way to construct a string
// out of a mix of raw C strings, string_views, strings, bool values,
// and numeric values.
//
// Don't use `StrCat()` for user-visible strings. The localization process
// works poorly on strings built up out of fragments.
//
// For clarity and performance, don't use `StrCat()` when appending to a
// string. Use `StrAppend()` instead. In particular, avoid using any of these
// (anti-)patterns:
//
// str.append(StrCat(...))
// str += StrCat(...)
// str = StrCat(str, ...)
//
// The last case is the worst, with a potential to change a loop
// from a linear time operation with O(1) dynamic allocations into a
// quadratic time operation with O(n) dynamic allocations.
//
// See `StrAppend()` below for more information.
namespace strings_internal {
// Do not call directly - this is not part of the public API.
std::string CatPieces(std::initializer_list<absl::string_view> pieces);
void AppendPieces(std::string* dest,
std::initializer_list<absl::string_view> pieces);
} // namespace strings_internal
ABSL_MUST_USE_RESULT inline std::string StrCat() { return std::string(); }
ABSL_MUST_USE_RESULT inline std::string StrCat(const AlphaNum& a) {
return std::string(a.data(), a.size());
}
ABSL_MUST_USE_RESULT std::string StrCat(const AlphaNum& a, const AlphaNum& b);
ABSL_MUST_USE_RESULT std::string StrCat(const AlphaNum& a, const AlphaNum& b,
const AlphaNum& c);
ABSL_MUST_USE_RESULT std::string StrCat(const AlphaNum& a, const AlphaNum& b,
const AlphaNum& c, const AlphaNum& d);
// Support 5 or more arguments
template <typename... AV>
ABSL_MUST_USE_RESULT inline std::string StrCat(
const AlphaNum& a, const AlphaNum& b, const AlphaNum& c, const AlphaNum& d,
const AlphaNum& e, const AV&... args) {
return strings_internal::CatPieces(
{a.Piece(), b.Piece(), c.Piece(), d.Piece(), e.Piece(),
static_cast<const AlphaNum&>(args).Piece()...});
}
// -----------------------------------------------------------------------------
// StrAppend()
// -----------------------------------------------------------------------------
//
// Appends a string or set of strings to an existing string, in a similar
// fashion to `StrCat()`.
//
// WARNING: `StrAppend(&str, a, b, c, ...)` requires that none of the
// a, b, c, parameters be a reference into str. For speed, `StrAppend()` does
// not try to check each of its input arguments to be sure that they are not
// a subset of the string being appended to. That is, while this will work:
//
// std::string s = "foo";
// s += s;
//
// This output is undefined:
//
// std::string s = "foo";
// StrAppend(&s, s);
//
// This output is undefined as well, since `absl::string_view` does not own its
// data:
//
// std::string s = "foobar";
// absl::string_view p = s;
// StrAppend(&s, p);
inline void StrAppend(std::string*) {}
void StrAppend(std::string* dest, const AlphaNum& a);
void StrAppend(std::string* dest, const AlphaNum& a, const AlphaNum& b);
void StrAppend(std::string* dest, const AlphaNum& a, const AlphaNum& b,
const AlphaNum& c);
void StrAppend(std::string* dest, const AlphaNum& a, const AlphaNum& b,
const AlphaNum& c, const AlphaNum& d);
// Support 5 or more arguments
template <typename... AV>
inline void StrAppend(std::string* dest, const AlphaNum& a, const AlphaNum& b,
const AlphaNum& c, const AlphaNum& d, const AlphaNum& e,
const AV&... args) {
strings_internal::AppendPieces(
dest, {a.Piece(), b.Piece(), c.Piece(), d.Piece(), e.Piece(),
static_cast<const AlphaNum&>(args).Piece()...});
}
// Helper function for the future StrCat default floating-point format, %.6g
// This is fast.
inline strings_internal::AlphaNumBuffer<
numbers_internal::kSixDigitsToBufferSize>
SixDigits(double d) {
strings_internal::AlphaNumBuffer<numbers_internal::kSixDigitsToBufferSize>
result;
result.size = numbers_internal::SixDigitsToBuffer(d, &result.data[0]);
return result;
}
ABSL_NAMESPACE_END
} // namespace absl
#endif // ABSL_STRINGS_STR_CAT_H_