2018-12-31 20:04:05 +01:00
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//
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2018-01-02 14:42:31 +01:00
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// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2018
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2018-12-31 20:04:05 +01:00
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//
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// Distributed under the Boost Software License, Version 1.0. (See accompanying
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// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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//
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#pragma once
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#include "td/utils/common.h"
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#include "td/utils/logging.h"
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#include "td/utils/Slice.h"
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#include "td/utils/Status.h"
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#include "td/utils/StringBuilder.h"
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#include <cstdint>
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#include <limits>
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#include <tuple>
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#include <type_traits>
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#include <utility>
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namespace td {
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2018-02-03 17:49:39 +01:00
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char *str_dup(Slice str);
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2018-12-31 20:04:05 +01:00
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template <class T>
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std::pair<T, T> split(T s, char delimiter = ' ') {
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auto delimiter_pos = s.find(delimiter);
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if (delimiter_pos == string::npos) {
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return {std::move(s), T()};
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} else {
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return {s.substr(0, delimiter_pos), s.substr(delimiter_pos + 1)};
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}
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}
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template <class T>
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vector<T> full_split(T s, char delimiter = ' ') {
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T next;
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vector<T> result;
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while (!s.empty()) {
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std::tie(next, s) = split(s, delimiter);
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result.push_back(next);
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}
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return result;
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}
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2018-02-03 17:49:39 +01:00
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string implode(vector<string> v, char delimiter = ' ');
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2018-12-31 20:04:05 +01:00
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namespace detail {
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template <typename T>
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struct transform_helper {
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template <class Func>
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auto transform(const T &v, const Func &f) {
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vector<decltype(f(*v.begin()))> result;
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result.reserve(v.size());
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for (auto &x : v) {
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result.push_back(f(x));
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}
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return result;
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}
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template <class Func>
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auto transform(T &&v, const Func &f) {
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vector<decltype(f(std::move(*v.begin())))> result;
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result.reserve(v.size());
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for (auto &x : v) {
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result.push_back(f(std::move(x)));
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}
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return result;
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}
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};
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} // namespace detail
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template <class T, class Func>
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auto transform(T &&v, const Func &f) {
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return detail::transform_helper<std::decay_t<T>>().transform(std::forward<T>(v), f);
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}
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template <class T>
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void reset_to_empty(T &value) {
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using std::swap;
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std::decay_t<T> tmp;
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swap(tmp, value);
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}
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template <class T>
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auto append(vector<T> &destination, const vector<T> &source) {
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destination.insert(destination.end(), source.begin(), source.end());
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}
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template <class T>
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auto append(vector<T> &destination, vector<T> &&source) {
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if (destination.empty()) {
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destination.swap(source);
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return;
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}
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destination.reserve(destination.size() + source.size());
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2018-02-12 11:37:54 +01:00
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for (auto &elem : source) {
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2018-02-12 09:40:52 +01:00
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destination.push_back(std::move(elem));
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}
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2018-12-31 20:04:05 +01:00
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reset_to_empty(source);
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}
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inline bool begins_with(Slice str, Slice prefix) {
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return prefix.size() <= str.size() && prefix == Slice(str.data(), prefix.size());
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}
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inline bool ends_with(Slice str, Slice suffix) {
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return suffix.size() <= str.size() && suffix == Slice(str.data() + str.size() - suffix.size(), suffix.size());
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}
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inline char to_lower(char c) {
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if ('A' <= c && c <= 'Z') {
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return static_cast<char>(c - 'A' + 'a');
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}
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return c;
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}
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inline void to_lower_inplace(MutableSlice slice) {
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for (auto &c : slice) {
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c = to_lower(c);
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}
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}
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inline string to_lower(Slice slice) {
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auto result = slice.str();
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to_lower_inplace(result);
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return result;
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}
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inline char to_upper(char c) {
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if ('a' <= c && c <= 'z') {
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return static_cast<char>(c - 'a' + 'A');
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}
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return c;
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}
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inline void to_upper_inplace(MutableSlice slice) {
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for (auto &c : slice) {
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c = to_upper(c);
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}
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}
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inline string to_upper(Slice slice) {
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auto result = slice.str();
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to_upper_inplace(result);
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return result;
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}
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inline bool is_space(char c) {
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return c == ' ' || c == '\t' || c == '\r' || c == '\n' || c == '\0' || c == '\v';
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}
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inline bool is_alpha(char c) {
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c |= 0x20;
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return 'a' <= c && c <= 'z';
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}
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inline bool is_digit(char c) {
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return '0' <= c && c <= '9';
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}
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inline bool is_alnum(char c) {
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return is_alpha(c) || is_digit(c);
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}
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inline bool is_hex_digit(char c) {
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if (is_digit(c)) {
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return true;
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}
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c |= 0x20;
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return 'a' <= c && c <= 'f';
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}
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template <class T>
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T trim(T str) {
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auto begin = str.data();
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auto end = begin + str.size();
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while (begin < end && is_space(*begin)) {
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begin++;
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}
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while (begin < end && is_space(end[-1])) {
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end--;
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}
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if (static_cast<size_t>(end - begin) == str.size()) {
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return std::move(str);
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}
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return T(begin, end);
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}
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2018-02-03 17:49:39 +01:00
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string oneline(Slice str);
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2018-12-31 20:04:05 +01:00
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template <class T>
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std::enable_if_t<std::is_signed<T>::value, T> to_integer(Slice str) {
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using unsigned_T = typename std::make_unsigned<T>::type;
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unsigned_T integer_value = 0;
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auto begin = str.begin();
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auto end = str.end();
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bool is_negative = false;
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if (begin != end && *begin == '-') {
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is_negative = true;
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begin++;
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}
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while (begin != end && is_digit(*begin)) {
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integer_value = static_cast<unsigned_T>(integer_value * 10 + (*begin++ - '0'));
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}
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if (integer_value > static_cast<unsigned_T>(std::numeric_limits<T>::max())) {
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static_assert(~0 + 1 == 0, "Two's complement");
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// Use ~x + 1 instead of -x to suppress Visual Studio warning.
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integer_value = static_cast<unsigned_T>(~integer_value + 1);
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is_negative = !is_negative;
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if (integer_value > static_cast<unsigned_T>(std::numeric_limits<T>::max())) {
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return std::numeric_limits<T>::min();
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}
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}
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return is_negative ? static_cast<T>(-static_cast<T>(integer_value)) : static_cast<T>(integer_value);
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}
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template <class T>
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std::enable_if_t<std::is_unsigned<T>::value, T> to_integer(Slice str) {
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T integer_value = 0;
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auto begin = str.begin();
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auto end = str.end();
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while (begin != end && is_digit(*begin)) {
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integer_value = static_cast<T>(integer_value * 10 + (*begin++ - '0'));
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}
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return integer_value;
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}
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template <class T>
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Result<T> to_integer_safe(Slice str) {
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auto res = to_integer<T>(str);
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if (to_string(res) != str) {
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return Status::Error(PSLICE() << "Can't parse \"" << str << "\" as number");
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}
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return res;
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}
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inline int hex_to_int(char c) {
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if (is_digit(c)) {
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return c - '0';
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}
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c |= 0x20;
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if ('a' <= c && c <= 'f') {
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return c - 'a' + 10;
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}
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return 16;
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}
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template <class T>
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typename std::enable_if<std::is_unsigned<T>::value, T>::type hex_to_integer(Slice str) {
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T integer_value = 0;
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auto begin = str.begin();
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auto end = str.end();
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while (begin != end && is_hex_digit(*begin)) {
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integer_value = static_cast<T>(integer_value * 16 + hex_to_int(*begin++));
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}
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return integer_value;
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}
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2018-02-03 21:01:33 +01:00
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double to_double(Slice str);
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2018-12-31 20:04:05 +01:00
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template <class T>
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T clamp(T value, T min_value, T max_value) {
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if (value < min_value) {
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return min_value;
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}
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if (value > max_value) {
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return max_value;
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}
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return value;
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}
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// run-time checked narrowing cast (type conversion):
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namespace detail {
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template <class T, class U>
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struct is_same_signedness
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: public std::integral_constant<bool, std::is_signed<T>::value == std::is_signed<U>::value> {};
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template <class T, class Enable = void>
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struct safe_undeflying_type {
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using type = T;
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};
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template <class T>
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struct safe_undeflying_type<T, std::enable_if_t<std::is_enum<T>::value>> {
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using type = std::underlying_type_t<T>;
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};
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} // namespace detail
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template <class R, class A>
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R narrow_cast(const A &a) {
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using RT = typename detail::safe_undeflying_type<R>::type;
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using AT = typename detail::safe_undeflying_type<A>::type;
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static_assert(std::is_integral<RT>::value, "expected integral type to cast to");
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static_assert(std::is_integral<AT>::value, "expected integral type to cast from");
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auto r = R(a);
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2018-04-10 19:21:17 +02:00
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CHECK(A(r) == a) << static_cast<AT>(a) << " " << static_cast<RT>(r);
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CHECK((detail::is_same_signedness<RT, AT>::value) || ((static_cast<RT>(r) < RT{}) == (static_cast<AT>(a) < AT{})))
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<< static_cast<AT>(a) << " " << static_cast<RT>(r);
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2018-12-31 20:04:05 +01:00
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return r;
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}
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template <class R, class A>
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Result<R> narrow_cast_safe(const A &a) {
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using RT = typename detail::safe_undeflying_type<R>::type;
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using AT = typename detail::safe_undeflying_type<A>::type;
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static_assert(std::is_integral<RT>::value, "expected integral type to cast to");
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static_assert(std::is_integral<AT>::value, "expected integral type to cast from");
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auto r = R(a);
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if (!(A(r) == a)) {
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return Status::Error("Narrow cast failed");
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}
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if (!((detail::is_same_signedness<RT, AT>::value) || ((static_cast<RT>(r) < RT{}) == (static_cast<AT>(a) < AT{})))) {
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return Status::Error("Narrow cast failed");
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}
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return r;
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}
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template <int Alignment, class T>
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bool is_aligned_pointer(const T *pointer) {
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static_assert(Alignment > 0 && (Alignment & (Alignment - 1)) == 0, "Wrong alignment");
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return (reinterpret_cast<std::uintptr_t>(static_cast<const void *>(pointer)) & (Alignment - 1)) == 0;
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}
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} // namespace td
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