/*
- * Copyright 2016 Facebook, Inc.
+ * Copyright 2011-present Facebook, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
#pragma once
-#include <folly/FBString.h>
#include <folly/Portability.h>
-#include <folly/SpookyHashV2.h>
+#include <folly/hash/SpookyHashV2.h>
+#include <folly/portability/BitsFunctexcept.h>
#include <folly/portability/Constexpr.h>
#include <folly/portability/String.h>
-#include <algorithm>
#include <boost/operators.hpp>
+#include <glog/logging.h>
+#include <algorithm>
+#include <array>
+#include <cassert>
#include <climits>
#include <cstddef>
#include <cstring>
-#include <glog/logging.h>
#include <iosfwd>
#include <stdexcept>
#include <string>
#include <type_traits>
-// libc++ doesn't provide this header, nor does msvc
-#ifdef FOLLY_HAVE_BITS_CXXCONFIG_H
-// This file appears in two locations: inside fbcode and in the
-// libstdc++ source code (when embedding fbstring as std::string).
-// To aid in this schizophrenic use, two macros are defined in
-// c++config.h:
-// _LIBSTDCXX_FBSTRING - Set inside libstdc++. This is useful to
-// gate use inside fbcode v. libstdc++
-#include <bits/c++config.h>
-#endif
-
#include <folly/CpuId.h>
-#include <folly/Traits.h>
#include <folly/Likely.h>
+#include <folly/Traits.h>
#include <folly/detail/RangeCommon.h>
#include <folly/detail/RangeSse42.h>
// Ignore shadowing warnings within this file, so includers can use -Wshadow.
-#pragma GCC diagnostic push
-#pragma GCC diagnostic ignored "-Wshadow"
+FOLLY_PUSH_WARNING
+FOLLY_GCC_DISABLE_WARNING("-Wshadow")
namespace folly {
-template <class T> class Range;
+/**
+ * Ubiquitous helper template for knowing what's a string.
+ */
+template <class T>
+struct IsSomeString : std::false_type {};
+
+template <>
+struct IsSomeString<std::string> : std::true_type {};
+
+template <class Iter>
+class Range;
/**
* Finds the first occurrence of needle in haystack. The algorithm is on
* as Boyer-Moore. On the upside, it does not do any upfront
* preprocessing and does not allocate memory.
*/
-template <class T, class Comp = std::equal_to<typename Range<T>::value_type>>
-inline size_t qfind(const Range<T> & haystack,
- const Range<T> & needle,
- Comp eq = Comp());
+template <
+ class Iter,
+ class Comp = std::equal_to<typename Range<Iter>::value_type>>
+inline size_t
+qfind(const Range<Iter>& haystack, const Range<Iter>& needle, Comp eq = Comp());
/**
* Finds the first occurrence of needle in haystack. The result is the
* offset reported to the beginning of haystack, or string::npos if
* needle wasn't found.
*/
-template <class T>
-size_t qfind(const Range<T> & haystack,
- const typename Range<T>::value_type& needle);
+template <class Iter>
+size_t qfind(
+ const Range<Iter>& haystack,
+ const typename Range<Iter>::value_type& needle);
/**
* Finds the last occurrence of needle in haystack. The result is the
* offset reported to the beginning of haystack, or string::npos if
* needle wasn't found.
*/
-template <class T>
-size_t rfind(const Range<T> & haystack,
- const typename Range<T>::value_type& needle);
-
+template <class Iter>
+size_t rfind(
+ const Range<Iter>& haystack,
+ const typename Range<Iter>::value_type& needle);
/**
* Finds the first occurrence of any element of needle in
* haystack. The algorithm is O(haystack.size() * needle.size()).
*/
-template <class T>
-inline size_t qfind_first_of(const Range<T> & haystack,
- const Range<T> & needle);
+template <class Iter>
+inline size_t qfind_first_of(
+ const Range<Iter>& haystack,
+ const Range<Iter>& needle);
/**
* Small internal helper - returns the value just before an iterator.
*/
template <class Iter>
typename std::enable_if<
- std::is_same<typename std::iterator_traits<Iter>::iterator_category,
- std::random_access_iterator_tag>::value,
- typename std::iterator_traits<Iter>::reference>::type
+ std::is_same<
+ typename std::iterator_traits<Iter>::iterator_category,
+ std::random_access_iterator_tag>::value,
+ typename std::iterator_traits<Iter>::reference>::type
value_before(Iter i) {
return i[-1];
}
*/
template <class Iter>
typename std::enable_if<
- !std::is_same<typename std::iterator_traits<Iter>::iterator_category,
- std::random_access_iterator_tag>::value,
- typename std::iterator_traits<Iter>::reference>::type
+ !std::is_same<
+ typename std::iterator_traits<Iter>::iterator_category,
+ std::random_access_iterator_tag>::value,
+ typename std::iterator_traits<Iter>::reference>::type
value_before(Iter i) {
return *--i;
}
* Use IsCharPointer<T>::type to enable const char* or char*.
* Use IsCharPointer<T>::const_type to enable only const char*.
*/
-template <class T> struct IsCharPointer {};
+template <class T>
+struct IsCharPointer {};
template <>
struct IsCharPointer<char*> {
* wouldn't.)
*/
template <class Iter>
-class Range : private boost::totally_ordered<Range<Iter> > {
-public:
+class Range : private boost::totally_ordered<Range<Iter>> {
+ public:
typedef std::size_t size_type;
typedef Iter iterator;
typedef Iter const_iterator;
typedef typename std::remove_reference<
- typename std::iterator_traits<Iter>::reference>::type
- value_type;
+ typename std::iterator_traits<Iter>::reference>::type value_type;
+ using difference_type = typename std::iterator_traits<Iter>::difference_type;
typedef typename std::iterator_traits<Iter>::reference reference;
/**
* args which are const.
*/
typedef typename std::conditional<
- std::is_same<Iter, char*>::value
- || std::is_same<Iter, unsigned char*>::value,
- Range<const value_type*>,
- Range<Iter>>::type const_range_type;
+ std::is_same<Iter, char*>::value ||
+ std::is_same<Iter, unsigned char*>::value,
+ Range<const value_type*>,
+ Range<Iter>>::type const_range_type;
typedef std::char_traits<typename std::remove_const<value_type>::type>
- traits_type;
+ traits_type;
static const size_type npos;
// Works for all iterators
- constexpr Range() : b_(), e_() {
- }
+ constexpr Range() : b_(), e_() {}
constexpr Range(const Range&) = default;
constexpr Range(Range&&) = default;
-public:
+ public:
// Works for all iterators
- constexpr Range(Iter start, Iter end) : b_(start), e_(end) {
- }
+ constexpr Range(Iter start, Iter end) : b_(start), e_(end) {}
// Works only for random-access iterators
- constexpr Range(Iter start, size_t size)
- : b_(start), e_(start + size) { }
+ constexpr Range(Iter start, size_t size) : b_(start), e_(start + size) {}
-# if !__clang__ || __CLANG_PREREQ(3, 7) // Clang 3.6 crashes on this line
+#if !__clang__ || __CLANG_PREREQ(3, 7) // Clang 3.6 crashes on this line
/* implicit */ Range(std::nullptr_t) = delete;
-# endif
+#endif
- template <class T = Iter, typename detail::IsCharPointer<T>::type = 0>
constexpr /* implicit */ Range(Iter str)
- : b_(str), e_(str + constexpr_strlen(str)) {}
+ : b_(str), e_(str + constexpr_strlen(str)) {
+ static_assert(
+ std::is_same<int, typename detail::IsCharPointer<Iter>::type>::value,
+ "This constructor is only available for character ranges");
+ }
template <class T = Iter, typename detail::IsCharPointer<T>::const_type = 0>
/* implicit */ Range(const std::string& str)
template <class T = Iter, typename detail::IsCharPointer<T>::const_type = 0>
Range(const std::string& str, std::string::size_type startFrom) {
if (UNLIKELY(startFrom > str.size())) {
- throw std::out_of_range("index out of range");
+ std::__throw_out_of_range("index out of range");
}
b_ = str.data() + startFrom;
e_ = str.data() + str.size();
}
template <class T = Iter, typename detail::IsCharPointer<T>::const_type = 0>
- Range(const std::string& str,
- std::string::size_type startFrom,
- std::string::size_type size) {
+ Range(
+ const std::string& str,
+ std::string::size_type startFrom,
+ std::string::size_type size) {
if (UNLIKELY(startFrom > str.size())) {
- throw std::out_of_range("index out of range");
+ std::__throw_out_of_range("index out of range");
}
b_ = str.data() + startFrom;
if (str.size() - startFrom < size) {
}
}
- Range(const Range& other,
- size_type first,
- size_type length = npos)
- : Range(other.subpiece(first, length))
- { }
-
- template <class T = Iter, typename detail::IsCharPointer<T>::const_type = 0>
- /* implicit */ Range(const fbstring& str)
- : b_(str.data()), e_(b_ + str.size()) { }
-
- template <class T = Iter, typename detail::IsCharPointer<T>::const_type = 0>
- Range(const fbstring& str, fbstring::size_type startFrom) {
- if (UNLIKELY(startFrom > str.size())) {
- throw std::out_of_range("index out of range");
+ Range(const Range& other, size_type first, size_type length = npos)
+ : Range(other.subpiece(first, length)) {}
+
+ template <
+ class Container,
+ class = typename std::enable_if<
+ std::is_same<Iter, typename Container::const_pointer>::value>::type,
+ class = decltype(
+ Iter(std::declval<Container const&>().data()),
+ Iter(
+ std::declval<Container const&>().data() +
+ std::declval<Container const&>().size()))>
+ /* implicit */ constexpr Range(Container const& container)
+ : b_(container.data()), e_(b_ + container.size()) {}
+
+ template <
+ class Container,
+ class = typename std::enable_if<
+ std::is_same<Iter, typename Container::const_pointer>::value>::type,
+ class = decltype(
+ Iter(std::declval<Container const&>().data()),
+ Iter(
+ std::declval<Container const&>().data() +
+ std::declval<Container const&>().size()))>
+ Range(Container const& container, typename Container::size_type startFrom) {
+ auto const cdata = container.data();
+ auto const csize = container.size();
+ if (UNLIKELY(startFrom > csize)) {
+ std::__throw_out_of_range("index out of range");
}
- b_ = str.data() + startFrom;
- e_ = str.data() + str.size();
- }
-
- template <class T = Iter, typename detail::IsCharPointer<T>::const_type = 0>
- Range(const fbstring& str, fbstring::size_type startFrom,
- fbstring::size_type size) {
- if (UNLIKELY(startFrom > str.size())) {
- throw std::out_of_range("index out of range");
+ b_ = cdata + startFrom;
+ e_ = cdata + csize;
+ }
+
+ template <
+ class Container,
+ class = typename std::enable_if<
+ std::is_same<Iter, typename Container::const_pointer>::value>::type,
+ class = decltype(
+ Iter(std::declval<Container const&>().data()),
+ Iter(
+ std::declval<Container const&>().data() +
+ std::declval<Container const&>().size()))>
+ Range(
+ Container const& container,
+ typename Container::size_type startFrom,
+ typename Container::size_type size) {
+ auto const cdata = container.data();
+ auto const csize = container.size();
+ if (UNLIKELY(startFrom > csize)) {
+ std::__throw_out_of_range("index out of range");
}
- b_ = str.data() + startFrom;
- if (str.size() - startFrom < size) {
- e_ = str.data() + str.size();
+ b_ = cdata + startFrom;
+ if (csize - startFrom < size) {
+ e_ = cdata + csize;
} else {
e_ = b_ + size;
}
// Range<const unsigned char*> (aka ByteRange), as they're both frequently
// used to represent ranges of bytes. Allow explicit conversion in the other
// direction.
- template <class OtherIter, typename std::enable_if<
- (std::is_same<Iter, const unsigned char*>::value &&
- (std::is_same<OtherIter, const char*>::value ||
- std::is_same<OtherIter, char*>::value)), int>::type = 0>
+ template <
+ class OtherIter,
+ typename std::enable_if<
+ (std::is_same<Iter, const unsigned char*>::value &&
+ (std::is_same<OtherIter, const char*>::value ||
+ std::is_same<OtherIter, char*>::value)),
+ int>::type = 0>
/* implicit */ Range(const Range<OtherIter>& other)
- : b_(reinterpret_cast<const unsigned char*>(other.begin())),
- e_(reinterpret_cast<const unsigned char*>(other.end())) {
- }
-
- template <class OtherIter, typename std::enable_if<
- (std::is_same<Iter, unsigned char*>::value &&
- std::is_same<OtherIter, char*>::value), int>::type = 0>
+ : b_(reinterpret_cast<const unsigned char*>(other.begin())),
+ e_(reinterpret_cast<const unsigned char*>(other.end())) {}
+
+ template <
+ class OtherIter,
+ typename std::enable_if<
+ (std::is_same<Iter, unsigned char*>::value &&
+ std::is_same<OtherIter, char*>::value),
+ int>::type = 0>
/* implicit */ Range(const Range<OtherIter>& other)
- : b_(reinterpret_cast<unsigned char*>(other.begin())),
- e_(reinterpret_cast<unsigned char*>(other.end())) {
- }
-
- template <class OtherIter, typename std::enable_if<
- (std::is_same<Iter, const char*>::value &&
- (std::is_same<OtherIter, const unsigned char*>::value ||
- std::is_same<OtherIter, unsigned char*>::value)), int>::type = 0>
+ : b_(reinterpret_cast<unsigned char*>(other.begin())),
+ e_(reinterpret_cast<unsigned char*>(other.end())) {}
+
+ template <
+ class OtherIter,
+ typename std::enable_if<
+ (std::is_same<Iter, const char*>::value &&
+ (std::is_same<OtherIter, const unsigned char*>::value ||
+ std::is_same<OtherIter, unsigned char*>::value)),
+ int>::type = 0>
explicit Range(const Range<OtherIter>& other)
- : b_(reinterpret_cast<const char*>(other.begin())),
- e_(reinterpret_cast<const char*>(other.end())) {
- }
-
- template <class OtherIter, typename std::enable_if<
- (std::is_same<Iter, char*>::value &&
- std::is_same<OtherIter, unsigned char*>::value), int>::type = 0>
+ : b_(reinterpret_cast<const char*>(other.begin())),
+ e_(reinterpret_cast<const char*>(other.end())) {}
+
+ template <
+ class OtherIter,
+ typename std::enable_if<
+ (std::is_same<Iter, char*>::value &&
+ std::is_same<OtherIter, unsigned char*>::value),
+ int>::type = 0>
explicit Range(const Range<OtherIter>& other)
- : b_(reinterpret_cast<char*>(other.begin())),
- e_(reinterpret_cast<char*>(other.end())) {
- }
+ : b_(reinterpret_cast<char*>(other.begin())),
+ e_(reinterpret_cast<char*>(other.end())) {}
// Allow implicit conversion from Range<From> to Range<To> if From is
// implicitly convertible to To.
- template <class OtherIter, typename std::enable_if<
- (!std::is_same<Iter, OtherIter>::value &&
- std::is_convertible<OtherIter, Iter>::value), int>::type = 0>
+ template <
+ class OtherIter,
+ typename std::enable_if<
+ (!std::is_same<Iter, OtherIter>::value &&
+ std::is_convertible<OtherIter, Iter>::value),
+ int>::type = 0>
constexpr /* implicit */ Range(const Range<OtherIter>& other)
- : b_(other.begin()),
- e_(other.end()) {
- }
+ : b_(other.begin()), e_(other.end()) {}
// Allow explicit conversion from Range<From> to Range<To> if From is
// explicitly convertible to To.
- template <class OtherIter, typename std::enable_if<
- (!std::is_same<Iter, OtherIter>::value &&
- !std::is_convertible<OtherIter, Iter>::value &&
- std::is_constructible<Iter, const OtherIter&>::value), int>::type = 0>
+ template <
+ class OtherIter,
+ typename std::enable_if<
+ (!std::is_same<Iter, OtherIter>::value &&
+ !std::is_convertible<OtherIter, Iter>::value &&
+ std::is_constructible<Iter, const OtherIter&>::value),
+ int>::type = 0>
constexpr explicit Range(const Range<OtherIter>& other)
- : b_(other.begin()),
- e_(other.end()) {
- }
+ : b_(other.begin()), e_(other.end()) {}
+
+ /**
+ * Allow explicit construction of Range() from a std::array of a
+ * convertible type.
+ *
+ * For instance, this allows constructing StringPiece from a
+ * std::array<char, N> or a std::array<const char, N>
+ */
+ template <
+ class T,
+ size_t N,
+ typename = typename std::enable_if<
+ std::is_convertible<const T*, Iter>::value>::type>
+ constexpr explicit Range(const std::array<T, N>& array)
+ : b_{array.empty() ? nullptr : &array.at(0)},
+ e_{array.empty() ? nullptr : &array.at(0) + N} {}
+ template <
+ class T,
+ size_t N,
+ typename =
+ typename std::enable_if<std::is_convertible<T*, Iter>::value>::type>
+ constexpr explicit Range(std::array<T, N>& array)
+ : b_{array.empty() ? nullptr : &array.at(0)},
+ e_{array.empty() ? nullptr : &array.at(0) + N} {}
Range& operator=(const Range& rhs) & = default;
Range& operator=(Range&& rhs) & = default;
+ template <class T = Iter, typename detail::IsCharPointer<T>::const_type = 0>
+ Range& operator=(std::string&& rhs) = delete;
+
void clear() {
b_ = Iter();
e_ = Iter();
reset(str.data(), str.size());
}
- size_type size() const {
- assert(b_ <= e_);
- return e_ - b_;
+ constexpr size_type size() const {
+ // It would be nice to assert(b_ <= e_) here. This can be achieved even
+ // in a C++11 compatible constexpr function:
+ // http://ericniebler.com/2014/09/27/assert-and-constexpr-in-cxx11/
+ // Unfortunately current gcc versions have a bug causing it to reject
+ // this check in a constexpr function:
+ // https://gcc.gnu.org/bugzilla/show_bug.cgi?id=71448
+ return size_type(e_ - b_);
+ }
+ constexpr size_type walk_size() const {
+ return size_type(std::distance(b_, e_));
+ }
+ constexpr bool empty() const {
+ return b_ == e_;
+ }
+ constexpr Iter data() const {
+ return b_;
+ }
+ constexpr Iter start() const {
+ return b_;
+ }
+ constexpr Iter begin() const {
+ return b_;
}
- size_type walk_size() const {
- return std::distance(b_, e_);
+ constexpr Iter end() const {
+ return e_;
+ }
+ constexpr Iter cbegin() const {
+ return b_;
+ }
+ constexpr Iter cend() const {
+ return e_;
}
- bool empty() const { return b_ == e_; }
- Iter data() const { return b_; }
- Iter start() const { return b_; }
- Iter begin() const { return b_; }
- Iter end() const { return e_; }
- Iter cbegin() const { return b_; }
- Iter cend() const { return e_; }
value_type& front() {
assert(b_ < e_);
return *b_;
assert(b_ < e_);
return detail::value_before(e_);
}
+
+ template <typename Tgt>
+ auto to() const
+ -> decltype(Tgt(std::declval<Iter const&>(), std::declval<size_type>())) {
+ return Tgt(b_, size());
+ }
// Works only for Range<const char*> and Range<char*>
- std::string str() const { return std::string(b_, size()); }
- std::string toString() const { return str(); }
- // Works only for Range<const char*> and Range<char*>
- fbstring fbstr() const { return fbstring(b_, size()); }
- fbstring toFbstring() const { return fbstr(); }
+ std::string str() const {
+ return to<std::string>();
+ }
+ std::string toString() const {
+ return to<std::string>();
+ }
const_range_type castToConst() const {
return const_range_type(*this);
- };
+ }
// Works only for Range<const char*> and Range<char*>
int compare(const const_range_type& o) const {
// We check the signed bit of the subtraction and bit shift it
// to produce either 0 or 2. The subtraction yields the
// comparison values of either -1 or 1.
- r = (static_cast<int>(
- (osize - tsize) >> (CHAR_BIT * sizeof(size_t) - 1)) << 1) - 1;
+ r = (static_cast<int>((osize - tsize) >> (CHAR_BIT * sizeof(size_t) - 1))
+ << 1) -
+ 1;
}
return r;
}
}
value_type& at(size_t i) {
- if (i >= size()) throw std::out_of_range("index out of range");
+ if (i >= size()) {
+ std::__throw_out_of_range("index out of range");
+ }
return b_[i];
}
const value_type& at(size_t i) const {
- if (i >= size()) throw std::out_of_range("index out of range");
+ if (i >= size()) {
+ std::__throw_out_of_range("index out of range");
+ }
return b_[i];
}
// (The above advice does not apply if you are targeting a 32-bit system.)
//
// Works only for Range<const char*> and Range<char*>
+ //
+ //
+ // ** WANT TO GET RID OF THIS LINT? **
+ //
+ // A) Use a better hash function (*cough*folly::Hash*cough*), but
+ // only if you don't serialize data in a format that depends on
+ // this formula (ie the writer and reader assume this exact hash
+ // function is used).
+ //
+ // B) If you have to use this exact function then make your own hasher
+ // object and copy the body over (see thrift example: D3972362).
+ // https://github.com/facebook/fbthrift/commit/f8ed502e24ab4a32a9d5f266580
+ FOLLY_DEPRECATED("Replace with folly::Hash if the hash is not serialized")
uint32_t hash() const {
// Taken from fbi/nstring.h:
// Quick and dirty bernstein hash...fine for short ascii strings
void advance(size_type n) {
if (UNLIKELY(n > size())) {
- throw std::out_of_range("index out of range");
+ std::__throw_out_of_range("index out of range");
}
b_ += n;
}
void subtract(size_type n) {
if (UNLIKELY(n > size())) {
- throw std::out_of_range("index out of range");
+ std::__throw_out_of_range("index out of range");
+ }
+ e_ -= n;
+ }
+
+ Range subpiece(size_type first, size_type length = npos) const {
+ if (UNLIKELY(first > size())) {
+ std::__throw_out_of_range("index out of range");
}
+
+ return Range(b_ + first, std::min(length, size() - first));
+ }
+
+ // unchecked versions
+ void uncheckedAdvance(size_type n) {
+ DCHECK_LE(n, size());
+ b_ += n;
+ }
+
+ void uncheckedSubtract(size_type n) {
+ DCHECK_LE(n, size());
e_ -= n;
}
+ Range uncheckedSubpiece(size_type first, size_type length = npos) const {
+ DCHECK_LE(first, size());
+ return Range(b_ + first, std::min(length, size() - first));
+ }
+
void pop_front() {
assert(b_ < e_);
++b_;
--e_;
}
- Range subpiece(size_type first, size_type length = npos) const {
- if (UNLIKELY(first > size())) {
- throw std::out_of_range("index out of range");
- }
-
- return Range(b_ + first, std::min(length, size() - first));
- }
-
// string work-alike functions
size_type find(const_range_type str) const {
return qfind(castToConst(), str);
}
size_type find(const_range_type str, size_t pos) const {
- if (pos > size()) return std::string::npos;
+ if (pos > size()) {
+ return std::string::npos;
+ }
size_t ret = qfind(castToConst().subpiece(pos), str);
return ret == npos ? ret : ret + pos;
}
size_type find(Iter s, size_t pos, size_t n) const {
- if (pos > size()) return std::string::npos;
+ if (pos > size()) {
+ return std::string::npos;
+ }
auto forFinding = castToConst();
size_t ret = qfind(
pos ? forFinding.subpiece(pos) : forFinding, const_range_type(s, n));
// Works only for Range<(const) (unsigned) char*> which have Range(Iter) ctor
size_type find(const Iter s, size_t pos) const {
- if (pos > size()) return std::string::npos;
+ if (pos > size()) {
+ return std::string::npos;
+ }
size_type ret = qfind(castToConst().subpiece(pos), const_range_type(s));
return ret == npos ? ret : ret + pos;
}
}
size_type find(value_type c, size_t pos) const {
- if (pos > size()) return std::string::npos;
+ if (pos > size()) {
+ return std::string::npos;
+ }
size_type ret = qfind(castToConst().subpiece(pos), c);
return ret == npos ? ret : ret + pos;
}
}
size_type find_first_of(const_range_type needles, size_t pos) const {
- if (pos > size()) return std::string::npos;
+ if (pos > size()) {
+ return std::string::npos;
+ }
size_type ret = qfind_first_of(castToConst().subpiece(pos), needles);
return ret == npos ? ret : ret + pos;
}
* Does this Range start with another range?
*/
bool startsWith(const const_range_type& other) const {
- return size() >= other.size()
- && castToConst().subpiece(0, other.size()) == other;
+ return size() >= other.size() &&
+ castToConst().subpiece(0, other.size()) == other;
}
bool startsWith(value_type c) const {
return !empty() && front() == c;
}
+ template <class Comp>
+ bool startsWith(const const_range_type& other, Comp&& eq) const {
+ if (size() < other.size()) {
+ return false;
+ }
+ auto const trunc = subpiece(0, other.size());
+ return std::equal(
+ trunc.begin(), trunc.end(), other.begin(), std::forward<Comp>(eq));
+ }
+
/**
* Does this Range end with another range?
*/
bool endsWith(const const_range_type& other) const {
- return size() >= other.size()
- && castToConst().subpiece(size() - other.size()) == other;
+ return size() >= other.size() &&
+ castToConst().subpiece(size() - other.size()) == other;
}
bool endsWith(value_type c) const {
return !empty() && back() == c;
}
+ template <class Comp>
+ bool endsWith(const const_range_type& other, Comp&& eq) const {
+ if (size() < other.size()) {
+ return false;
+ }
+ auto const trunc = subpiece(size() - other.size());
+ return std::equal(
+ trunc.begin(), trunc.end(), other.begin(), std::forward<Comp>(eq));
+ }
+
+ template <class Comp>
+ bool equals(const const_range_type& other, Comp&& eq) const {
+ return size() == other.size() &&
+ std::equal(begin(), end(), other.begin(), std::forward<Comp>(eq));
+ }
+
/**
* Remove the items in [b, e), as long as this subrange is at the beginning
* or end of the Range.
} else if (e == e_) {
e_ = b;
} else {
- throw std::out_of_range("index out of range");
+ std::__throw_out_of_range("index out of range");
}
}
auto i = find(delimiter);
Range result(b_, i == std::string::npos ? size() : i);
- b_ = result.end() == e_ ? e_ : std::next(result.end(), delimiter.size());
+ b_ = result.end() == e_
+ ? e_
+ : std::next(
+ result.end(),
+ typename std::iterator_traits<Iter>::difference_type(
+ delimiter.size()));
return result;
}
* @author: Marcelo Juchem <marcelo@fb.com>
*/
template <typename TProcess, typename... Args>
- auto split_step(value_type delimiter, TProcess &&process, Args &&...args)
- -> decltype(process(std::declval<Range>(), std::forward<Args>(args)...))
- { return process(split_step(delimiter), std::forward<Args>(args)...); }
+ auto split_step(value_type delimiter, TProcess&& process, Args&&... args)
+ -> decltype(process(std::declval<Range>(), std::forward<Args>(args)...)) {
+ return process(split_step(delimiter), std::forward<Args>(args)...);
+ }
template <typename TProcess, typename... Args>
- auto split_step(Range delimiter, TProcess &&process, Args &&...args)
- -> decltype(process(std::declval<Range>(), std::forward<Args>(args)...))
- { return process(split_step(delimiter), std::forward<Args>(args)...); }
+ auto split_step(Range delimiter, TProcess&& process, Args&&... args)
+ -> decltype(process(std::declval<Range>(), std::forward<Args>(args)...)) {
+ return process(split_step(delimiter), std::forward<Args>(args)...);
+ }
-private:
+ private:
Iter b_, e_;
};
template <class Iter>
const typename Range<Iter>::size_type Range<Iter>::npos = std::string::npos;
-template <class T>
-void swap(Range<T>& lhs, Range<T>& rhs) {
+template <class Iter>
+void swap(Range<Iter>& lhs, Range<Iter>& rhs) {
lhs.swap(rhs);
}
* Create a range from two iterators, with type deduction.
*/
template <class Iter>
-Range<Iter> range(Iter first, Iter last) {
+constexpr Range<Iter> range(Iter first, Iter last) {
return Range<Iter>(first, last);
}
* Creates a range to reference the contents of a contiguous-storage container.
*/
// Use pointers for types with '.data()' member
-template <class Collection,
- class T = typename std::remove_pointer<
- decltype(std::declval<Collection>().data())>::type>
-Range<T*> range(Collection&& v) {
- return Range<T*>(v.data(), v.data() + v.size());
+template <class Collection>
+constexpr auto range(Collection& v) -> Range<decltype(v.data())> {
+ return Range<decltype(v.data())>(v.data(), v.data() + v.size());
+}
+template <class Collection>
+constexpr auto range(Collection const& v) -> Range<decltype(v.data())> {
+ return Range<decltype(v.data())>(v.data(), v.data() + v.size());
+}
+template <class Collection>
+constexpr auto crange(Collection const& v) -> Range<decltype(v.data())> {
+ return Range<decltype(v.data())>(v.data(), v.data() + v.size());
}
template <class T, size_t n>
-Range<T*> range(T (&array)[n]) {
+constexpr Range<T*> range(T (&array)[n]) {
return Range<T*>(array, array + n);
}
+template <class T, size_t n>
+constexpr Range<T const*> range(T const (&array)[n]) {
+ return Range<T const*>(array, array + n);
+}
+template <class T, size_t n>
+constexpr Range<T const*> crange(T const (&array)[n]) {
+ return Range<T const*>(array, array + n);
+}
+
+template <class T, size_t n>
+constexpr Range<T*> range(std::array<T, n>& array) {
+ return Range<T*>{array};
+}
+template <class T, size_t n>
+constexpr Range<T const*> range(std::array<T, n> const& array) {
+ return Range<T const*>{array};
+}
+template <class T, size_t n>
+constexpr Range<T const*> crange(std::array<T, n> const& array) {
+ return Range<T const*>{array};
+}
typedef Range<const char*> StringPiece;
typedef Range<char*> MutableStringPiece;
typedef Range<const unsigned char*> ByteRange;
typedef Range<unsigned char*> MutableByteRange;
-inline std::ostream& operator<<(std::ostream& os,
- const StringPiece piece) {
- os.write(piece.start(), piece.size());
+template <class C>
+std::basic_ostream<C>& operator<<(
+ std::basic_ostream<C>& os,
+ Range<C const*> piece) {
+ using StreamSize = decltype(os.width());
+ os.write(piece.start(), static_cast<StreamSize>(piece.size()));
return os;
}
-inline std::ostream& operator<<(std::ostream& os,
- const MutableStringPiece piece) {
- os.write(piece.start(), piece.size());
+template <class C>
+std::basic_ostream<C>& operator<<(std::basic_ostream<C>& os, Range<C*> piece) {
+ using StreamSize = decltype(os.width());
+ os.write(piece.start(), static_cast<StreamSize>(piece.size()));
return os;
}
* Templated comparison operators
*/
-template <class T>
-inline bool operator==(const Range<T>& lhs, const Range<T>& rhs) {
+template <class Iter>
+inline bool operator==(const Range<Iter>& lhs, const Range<Iter>& rhs) {
return lhs.size() == rhs.size() && lhs.compare(rhs) == 0;
}
-template <class T>
-inline bool operator<(const Range<T>& lhs, const Range<T>& rhs) {
+template <class Iter>
+inline bool operator<(const Range<Iter>& lhs, const Range<Iter>& rhs) {
return lhs.compare(rhs) < 0;
}
template <class A, class B>
struct ComparableAsStringPiece {
enum {
- value =
- (std::is_convertible<A, StringPiece>::value
- && std::is_same<B, StringPiece>::value)
- ||
- (std::is_convertible<B, StringPiece>::value
- && std::is_same<A, StringPiece>::value)
+ value = (std::is_convertible<A, StringPiece>::value &&
+ std::is_same<B, StringPiece>::value) ||
+ (std::is_convertible<B, StringPiece>::value &&
+ std::is_same<A, StringPiece>::value)
};
};
* operator== through conversion for Range<const char*>
*/
template <class T, class U>
-typename
-std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>::type
+_t<std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>>
operator==(const T& lhs, const U& rhs) {
return StringPiece(lhs) == StringPiece(rhs);
}
* operator< through conversion for Range<const char*>
*/
template <class T, class U>
-typename
-std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>::type
+_t<std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>>
operator<(const T& lhs, const U& rhs) {
return StringPiece(lhs) < StringPiece(rhs);
}
* operator> through conversion for Range<const char*>
*/
template <class T, class U>
-typename
-std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>::type
+_t<std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>>
operator>(const T& lhs, const U& rhs) {
return StringPiece(lhs) > StringPiece(rhs);
}
* operator< through conversion for Range<const char*>
*/
template <class T, class U>
-typename
-std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>::type
+_t<std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>>
operator<=(const T& lhs, const U& rhs) {
return StringPiece(lhs) <= StringPiece(rhs);
}
* operator> through conversion for Range<const char*>
*/
template <class T, class U>
-typename
-std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>::type
+_t<std::enable_if<detail::ComparableAsStringPiece<T, U>::value, bool>>
operator>=(const T& lhs, const U& rhs) {
return StringPiece(lhs) >= StringPiece(rhs);
}
-// Do NOT use this, use SpookyHashV2 instead, see commment on hash() above.
-struct StringPieceHash {
- std::size_t operator()(const StringPiece str) const {
- return static_cast<std::size_t>(str.hash());
- }
-};
-
/**
* Finds substrings faster than brute force by borrowing from Boyer-Moore
*/
-template <class T, class Comp>
-size_t qfind(const Range<T>& haystack,
- const Range<T>& needle,
- Comp eq) {
+template <class Iter, class Comp>
+size_t qfind(const Range<Iter>& haystack, const Range<Iter>& needle, Comp eq) {
// Don't use std::search, use a Boyer-Moore-like trick by comparing
// the last characters first
auto const nsize = needle.size();
if (haystack.size() < nsize) {
return std::string::npos;
}
- if (!nsize) return 0;
+ if (!nsize) {
+ return 0;
+ }
auto const nsize_1 = nsize - 1;
auto const lastNeedle = needle[nsize_1];
}
// Here we know that the last char matches
// Continue in pedestrian mode
- for (size_t j = 0; ; ) {
+ for (size_t j = 0;;) {
assert(j < nsize);
if (!eq(i[j], needle[j])) {
// Not found, we can skip
// Check if done searching
if (++j == nsize) {
// Yay
- return i - haystack.begin();
+ return size_t(i - haystack.begin());
}
}
}
namespace detail {
-inline size_t qfind_first_byte_of(const StringPiece haystack,
- const StringPiece needles) {
- static auto const qfind_first_byte_of_fn =
- folly::CpuId().sse42() ? qfind_first_byte_of_sse42
- : qfind_first_byte_of_nosse;
+inline size_t qfind_first_byte_of(
+ const StringPiece haystack,
+ const StringPiece needles) {
+ static auto const qfind_first_byte_of_fn = folly::CpuId().sse42()
+ ? qfind_first_byte_of_sse42
+ : qfind_first_byte_of_nosse;
return qfind_first_byte_of_fn(haystack, needles);
}
} // namespace detail
-template <class T, class Comp>
-size_t qfind_first_of(const Range<T> & haystack,
- const Range<T> & needles,
- Comp eq) {
- auto ret = std::find_first_of(haystack.begin(), haystack.end(),
- needles.begin(), needles.end(),
- eq);
+template <class Iter, class Comp>
+size_t qfind_first_of(
+ const Range<Iter>& haystack,
+ const Range<Iter>& needles,
+ Comp eq) {
+ auto ret = std::find_first_of(
+ haystack.begin(), haystack.end(), needles.begin(), needles.end(), eq);
return ret == haystack.end() ? std::string::npos : ret - haystack.begin();
}
struct AsciiCaseInsensitive {
bool operator()(char lhs, char rhs) const {
char k = lhs ^ rhs;
- if (k == 0) return true;
- if (k != 32) return false;
+ if (k == 0) {
+ return true;
+ }
+ if (k != 32) {
+ return false;
+ }
k = lhs | rhs;
return (k >= 'a' && k <= 'z');
}
};
-template <class T>
-size_t qfind(const Range<T>& haystack,
- const typename Range<T>::value_type& needle) {
+template <class Iter>
+size_t qfind(
+ const Range<Iter>& haystack,
+ const typename Range<Iter>::value_type& needle) {
auto pos = std::find(haystack.begin(), haystack.end(), needle);
return pos == haystack.end() ? std::string::npos : pos - haystack.data();
}
-template <class T>
-size_t rfind(const Range<T>& haystack,
- const typename Range<T>::value_type& needle) {
- for (auto i = haystack.size(); i-- > 0; ) {
+template <class Iter>
+size_t rfind(
+ const Range<Iter>& haystack,
+ const typename Range<Iter>::value_type& needle) {
+ for (auto i = haystack.size(); i-- > 0;) {
if (haystack[i] == needle) {
return i;
}
// specialization for StringPiece
template <>
inline size_t qfind(const Range<const char*>& haystack, const char& needle) {
+ // memchr expects a not-null pointer, early return if the range is empty.
+ if (haystack.empty()) {
+ return std::string::npos;
+ }
auto pos = static_cast<const char*>(
- ::memchr(haystack.data(), needle, haystack.size()));
+ ::memchr(haystack.data(), needle, haystack.size()));
return pos == nullptr ? std::string::npos : pos - haystack.data();
}
template <>
inline size_t rfind(const Range<const char*>& haystack, const char& needle) {
+ // memchr expects a not-null pointer, early return if the range is empty.
+ if (haystack.empty()) {
+ return std::string::npos;
+ }
auto pos = static_cast<const char*>(
- ::memrchr(haystack.data(), needle, haystack.size()));
+ ::memrchr(haystack.data(), needle, haystack.size()));
return pos == nullptr ? std::string::npos : pos - haystack.data();
}
// specialization for ByteRange
template <>
-inline size_t qfind(const Range<const unsigned char*>& haystack,
- const unsigned char& needle) {
+inline size_t qfind(
+ const Range<const unsigned char*>& haystack,
+ const unsigned char& needle) {
+ // memchr expects a not-null pointer, early return if the range is empty.
+ if (haystack.empty()) {
+ return std::string::npos;
+ }
auto pos = static_cast<const unsigned char*>(
- ::memchr(haystack.data(), needle, haystack.size()));
+ ::memchr(haystack.data(), needle, haystack.size()));
return pos == nullptr ? std::string::npos : pos - haystack.data();
}
template <>
-inline size_t rfind(const Range<const unsigned char*>& haystack,
- const unsigned char& needle) {
+inline size_t rfind(
+ const Range<const unsigned char*>& haystack,
+ const unsigned char& needle) {
+ // memchr expects a not-null pointer, early return if the range is empty.
+ if (haystack.empty()) {
+ return std::string::npos;
+ }
auto pos = static_cast<const unsigned char*>(
- ::memrchr(haystack.data(), needle, haystack.size()));
+ ::memrchr(haystack.data(), needle, haystack.size()));
return pos == nullptr ? std::string::npos : pos - haystack.data();
}
-template <class T>
-size_t qfind_first_of(const Range<T>& haystack,
- const Range<T>& needles) {
+template <class Iter>
+size_t qfind_first_of(const Range<Iter>& haystack, const Range<Iter>& needles) {
return qfind_first_of(haystack, needles, AsciiCaseSensitive());
}
// specialization for StringPiece
template <>
-inline size_t qfind_first_of(const Range<const char*>& haystack,
- const Range<const char*>& needles) {
+inline size_t qfind_first_of(
+ const Range<const char*>& haystack,
+ const Range<const char*>& needles) {
return detail::qfind_first_byte_of(haystack, needles);
}
// specialization for ByteRange
template <>
-inline size_t qfind_first_of(const Range<const unsigned char*>& haystack,
- const Range<const unsigned char*>& needles) {
- return detail::qfind_first_byte_of(StringPiece(haystack),
- StringPiece(needles));
+inline size_t qfind_first_of(
+ const Range<const unsigned char*>& haystack,
+ const Range<const unsigned char*>& needles) {
+ return detail::qfind_first_byte_of(
+ StringPiece(haystack), StringPiece(needles));
}
-template<class Key, class Enable>
+template <class Key, class Enable>
struct hasher;
template <class T>
-struct hasher<folly::Range<T*>,
- typename std::enable_if<std::is_pod<T>::value, void>::type> {
+struct hasher<
+ folly::Range<T*>,
+ typename std::enable_if<std::is_pod<T>::value, void>::type> {
size_t operator()(folly::Range<T*> r) const {
return hash::SpookyHashV2::Hash64(r.begin(), r.size() * sizeof(T), 0);
}
};
-} // !namespace folly
+/**
+ * _sp is a user-defined literal suffix to make an appropriate Range
+ * specialization from a literal string.
+ *
+ * Modeled after C++17's `sv` suffix.
+ */
+inline namespace literals {
+inline namespace string_piece_literals {
+constexpr Range<char const*> operator"" _sp(
+ char const* str,
+ size_t len) noexcept {
+ return Range<char const*>(str, len);
+}
+
+constexpr Range<char16_t const*> operator"" _sp(
+ char16_t const* str,
+ size_t len) noexcept {
+ return Range<char16_t const*>(str, len);
+}
+
+constexpr Range<char32_t const*> operator"" _sp(
+ char32_t const* str,
+ size_t len) noexcept {
+ return Range<char32_t const*>(str, len);
+}
+
+constexpr Range<wchar_t const*> operator"" _sp(
+ wchar_t const* str,
+ size_t len) noexcept {
+ return Range<wchar_t const*>(str, len);
+}
+} // namespace string_piece_literals
+} // namespace literals
+
+} // namespace folly
-#pragma GCC diagnostic pop
+FOLLY_POP_WARNING
FOLLY_ASSUME_FBVECTOR_COMPATIBLE_1(folly::Range);