diff options
author | misterg <misterg@google.com> | 2017-09-19T20·54-0400 |
---|---|---|
committer | misterg <misterg@google.com> | 2017-09-19T20·54-0400 |
commit | c2e754829628d1e9b7a16b3389cfdace76950fdf (patch) | |
tree | 5a7f056f44e27c30e10025113b644f0b3b5801fc /absl/strings/internal/str_split_internal.h |
Initial Commit
Diffstat (limited to 'absl/strings/internal/str_split_internal.h')
-rw-r--r-- | absl/strings/internal/str_split_internal.h | 439 |
1 files changed, 439 insertions, 0 deletions
diff --git a/absl/strings/internal/str_split_internal.h b/absl/strings/internal/str_split_internal.h new file mode 100644 index 000000000000..dc31a8ef9090 --- /dev/null +++ b/absl/strings/internal/str_split_internal.h @@ -0,0 +1,439 @@ +// 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 +// +// 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. +// + +// This file declares INTERNAL parts of the Split API that are inline/templated +// or otherwise need to be available at compile time. The main abstractions +// defined in here are +// +// - ConvertibleToStringView +// - SplitIterator<> +// - Splitter<> +// +// DO NOT INCLUDE THIS FILE DIRECTLY. Use this file by including +// absl/strings/str_split.h. +// +// IWYU pragma: private, include "absl/strings/str_split.h" + +#ifndef ABSL_STRINGS_INTERNAL_STR_SPLIT_INTERNAL_H_ +#define ABSL_STRINGS_INTERNAL_STR_SPLIT_INTERNAL_H_ + +#ifdef _GLIBCXX_DEBUG +#include <glibcxx_debug_traits.h> +#endif // _GLIBCXX_DEBUG + +#include <array> +#include <initializer_list> +#include <iterator> +#include <map> +#include <type_traits> +#include <utility> +#include <vector> + +#include "absl/base/macros.h" +#include "absl/base/port.h" +#include "absl/meta/type_traits.h" +#include "absl/strings/string_view.h" + +namespace absl { +namespace strings_internal { + +#ifdef _GLIBCXX_DEBUG +using ::glibcxx_debug_traits::IsStrictlyDebugWrapperBase; +#else // _GLIBCXX_DEBUG +template <typename T> struct IsStrictlyDebugWrapperBase : std::false_type {}; +#endif // _GLIBCXX_DEBUG + +// This class is implicitly constructible from everything that absl::string_view +// is implicitly constructible from. If it's constructed from a temporary +// std::string, the data is moved into a data member so its lifetime matches that of +// the ConvertibleToStringView instance. +class ConvertibleToStringView { + public: + ConvertibleToStringView(const char* s) // NOLINT(runtime/explicit) + : value_(s) {} + ConvertibleToStringView(char* s) : value_(s) {} // NOLINT(runtime/explicit) + ConvertibleToStringView(absl::string_view s) // NOLINT(runtime/explicit) + : value_(s) {} + ConvertibleToStringView(const std::string& s) // NOLINT(runtime/explicit) + : value_(s) {} + + // Matches rvalue strings and moves their data to a member. +ConvertibleToStringView(std::string&& s) // NOLINT(runtime/explicit) + : copy_(std::move(s)), value_(copy_) {} + + ConvertibleToStringView(const ConvertibleToStringView& other) + : copy_(other.copy_), + value_(other.IsSelfReferential() ? copy_ : other.value_) {} + + ConvertibleToStringView(ConvertibleToStringView&& other) { + StealMembers(std::move(other)); + } + + ConvertibleToStringView& operator=(ConvertibleToStringView other) { + StealMembers(std::move(other)); + return *this; + } + + absl::string_view value() const { return value_; } + + private: + // Returns true if ctsp's value refers to its internal copy_ member. + bool IsSelfReferential() const { return value_.data() == copy_.data(); } + + void StealMembers(ConvertibleToStringView&& other) { + if (other.IsSelfReferential()) { + copy_ = std::move(other.copy_); + value_ = copy_; + other.value_ = other.copy_; + } else { + value_ = other.value_; + } + } + + // Holds the data moved from temporary std::string arguments. Declared first so + // that 'value' can refer to 'copy_'. + std::string copy_; + absl::string_view value_; +}; + +// An iterator that enumerates the parts of a std::string from a Splitter. The text +// to be split, the Delimiter, and the Predicate are all taken from the given +// Splitter object. Iterators may only be compared if they refer to the same +// Splitter instance. +// +// This class is NOT part of the public splitting API. +template <typename Splitter> +class SplitIterator { + public: + using iterator_category = std::input_iterator_tag; + using value_type = absl::string_view; + using difference_type = ptrdiff_t; + using pointer = const value_type*; + using reference = const value_type&; + + enum State { kInitState, kLastState, kEndState }; + SplitIterator(State state, const Splitter* splitter) + : pos_(0), + state_(state), + splitter_(splitter), + delimiter_(splitter->delimiter()), + predicate_(splitter->predicate()) { + // Hack to maintain backward compatibility. This one block makes it so an + // empty absl::string_view whose .data() happens to be nullptr behaves + // *differently* from an otherwise empty absl::string_view whose .data() is + // not nullptr. This is an undesirable difference in general, but this + // behavior is maintained to avoid breaking existing code that happens to + // depend on this old behavior/bug. Perhaps it will be fixed one day. The + // difference in behavior is as follows: + // Split(absl::string_view(""), '-'); // {""} + // Split(absl::string_view(), '-'); // {} + if (splitter_->text().data() == nullptr) { + state_ = kEndState; + pos_ = splitter_->text().size(); + return; + } + + if (state_ == kEndState) { + pos_ = splitter_->text().size(); + } else { + ++(*this); + } + } + + bool at_end() const { return state_ == kEndState; } + + reference operator*() const { return curr_; } + pointer operator->() const { return &curr_; } + + SplitIterator& operator++() { + do { + if (state_ == kLastState) { + state_ = kEndState; + return *this; + } + const absl::string_view text = splitter_->text(); + const absl::string_view d = delimiter_.Find(text, pos_); + if (d.data() == text.end()) state_ = kLastState; + curr_ = text.substr(pos_, d.data() - (text.data() + pos_)); + pos_ += curr_.size() + d.size(); + } while (!predicate_(curr_)); + return *this; + } + + SplitIterator operator++(int) { + SplitIterator old(*this); + ++(*this); + return old; + } + + friend bool operator==(const SplitIterator& a, const SplitIterator& b) { + return a.state_ == b.state_ && a.pos_ == b.pos_; + } + + friend bool operator!=(const SplitIterator& a, const SplitIterator& b) { + return !(a == b); + } + + private: + size_t pos_; + State state_; + absl::string_view curr_; + const Splitter* splitter_; + typename Splitter::DelimiterType delimiter_; + typename Splitter::PredicateType predicate_; +}; + +// HasMappedType<T>::value is true iff there exists a type T::mapped_type. +template <typename T, typename = void> +struct HasMappedType : std::false_type {}; +template <typename T> +struct HasMappedType<T, absl::void_t<typename T::mapped_type>> + : std::true_type {}; + +// HasValueType<T>::value is true iff there exists a type T::value_type. +template <typename T, typename = void> +struct HasValueType : std::false_type {}; +template <typename T> +struct HasValueType<T, absl::void_t<typename T::value_type>> : std::true_type { +}; + +// HasConstIterator<T>::value is true iff there exists a type T::const_iterator. +template <typename T, typename = void> +struct HasConstIterator : std::false_type {}; +template <typename T> +struct HasConstIterator<T, absl::void_t<typename T::const_iterator>> + : std::true_type {}; + +// IsInitializerList<T>::value is true iff T is an std::initializer_list. More +// details below in Splitter<> where this is used. +std::false_type IsInitializerListDispatch(...); // default: No +template <typename T> +std::true_type IsInitializerListDispatch(std::initializer_list<T>*); +template <typename T> +struct IsInitializerList + : decltype(IsInitializerListDispatch(static_cast<T*>(nullptr))) {}; + +// A SplitterIsConvertibleTo<C>::type alias exists iff the specified condition +// is true for type 'C'. +// +// Restricts conversion to container-like types (by testing for the presence of +// a const_iterator member type) and also to disable conversion to an +// std::initializer_list (which also has a const_iterator). Otherwise, code +// compiled in C++11 will get an error due to ambiguous conversion paths (in +// C++11 std::vector<T>::operator= is overloaded to take either a std::vector<T> +// or an std::initializer_list<T>). +template <typename C> +struct SplitterIsConvertibleTo + : std::enable_if< + !IsStrictlyDebugWrapperBase<C>::value && + !IsInitializerList<C>::value && + HasValueType<C>::value && + HasConstIterator<C>::value> {}; + +// This class implements the range that is returned by absl::StrSplit(). This +// class has templated conversion operators that allow it to be implicitly +// converted to a variety of types that the caller may have specified on the +// left-hand side of an assignment. +// +// The main interface for interacting with this class is through its implicit +// conversion operators. However, this class may also be used like a container +// in that it has .begin() and .end() member functions. It may also be used +// within a range-for loop. +// +// Output containers can be collections of any type that is constructible from +// an absl::string_view. +// +// An Predicate functor may be supplied. This predicate will be used to filter +// the split strings: only strings for which the predicate returns true will be +// kept. A Predicate object is any unary functor that takes an absl::string_view +// and returns bool. +template <typename Delimiter, typename Predicate> +class Splitter { + public: + using DelimiterType = Delimiter; + using PredicateType = Predicate; + using const_iterator = strings_internal::SplitIterator<Splitter>; + using value_type = typename std::iterator_traits<const_iterator>::value_type; + + Splitter(ConvertibleToStringView input_text, Delimiter d, Predicate p) + : text_(std::move(input_text)), + delimiter_(std::move(d)), + predicate_(std::move(p)) {} + + absl::string_view text() const { return text_.value(); } + const Delimiter& delimiter() const { return delimiter_; } + const Predicate& predicate() const { return predicate_; } + + // Range functions that iterate the split substrings as absl::string_view + // objects. These methods enable a Splitter to be used in a range-based for + // loop. + const_iterator begin() const { return {const_iterator::kInitState, this}; } + const_iterator end() const { return {const_iterator::kEndState, this}; } + + // An implicit conversion operator that is restricted to only those containers + // that the splitter is convertible to. + template <typename Container, + typename OnlyIf = typename SplitterIsConvertibleTo<Container>::type> + operator Container() const { // NOLINT(runtime/explicit) + return ConvertToContainer<Container, typename Container::value_type, + HasMappedType<Container>::value>()(*this); + } + + // Returns a pair with its .first and .second members set to the first two + // strings returned by the begin() iterator. Either/both of .first and .second + // will be constructed with empty strings if the iterator doesn't have a + // corresponding value. + template <typename First, typename Second> + operator std::pair<First, Second>() const { // NOLINT(runtime/explicit) + absl::string_view first, second; + auto it = begin(); + if (it != end()) { + first = *it; + if (++it != end()) { + second = *it; + } + } + return {First(first), Second(second)}; + } + + private: + // ConvertToContainer is a functor converting a Splitter to the requested + // Container of ValueType. It is specialized below to optimize splitting to + // certain combinations of Container and ValueType. + // + // This base template handles the generic case of storing the split results in + // the requested non-map-like container and converting the split substrings to + // the requested type. + template <typename Container, typename ValueType, bool is_map = false> + struct ConvertToContainer { + Container operator()(const Splitter& splitter) const { + Container c; + auto it = std::inserter(c, c.end()); + for (const auto sp : splitter) { + *it++ = ValueType(sp); + } + return c; + } + }; + + // Partial specialization for a std::vector<absl::string_view>. + // + // Optimized for the common case of splitting to a + // std::vector<absl::string_view>. In this case we first split the results to + // a small array of absl::string_view on the stack, to reduce reallocations. + template <typename A> + struct ConvertToContainer<std::vector<absl::string_view, A>, + absl::string_view, false> { + std::vector<absl::string_view, A> operator()( + const Splitter& splitter) const { + struct raw_view { + const char* data; + size_t size; + operator absl::string_view() const { // NOLINT(runtime/explicit) + return {data, size}; + } + }; + std::vector<absl::string_view, A> v; + std::array<raw_view, 16> ar; + for (auto it = splitter.begin(); !it.at_end();) { + size_t index = 0; + do { + ar[index].data = it->data(); + ar[index].size = it->size(); + ++it; + } while (++index != ar.size() && !it.at_end()); + v.insert(v.end(), ar.begin(), ar.begin() + index); + } + return v; + } + }; + + // Partial specialization for a std::vector<std::string>. + // + // Optimized for the common case of splitting to a std::vector<std::string>. In + // this case we first split the results to a std::vector<absl::string_view> so + // the returned std::vector<std::string> can have space reserved to avoid std::string + // moves. + template <typename A> + struct ConvertToContainer<std::vector<std::string, A>, std::string, false> { + std::vector<std::string, A> operator()(const Splitter& splitter) const { + const std::vector<absl::string_view> v = splitter; + return std::vector<std::string, A>(v.begin(), v.end()); + } + }; + + // Partial specialization for containers of pairs (e.g., maps). + // + // The algorithm is to insert a new pair into the map for each even-numbered + // item, with the even-numbered item as the key with a default-constructed + // value. Each odd-numbered item will then be assigned to the last pair's + // value. + template <typename Container, typename First, typename Second> + struct ConvertToContainer<Container, std::pair<const First, Second>, true> { + Container operator()(const Splitter& splitter) const { + Container m; + typename Container::iterator it; + bool insert = true; + for (const auto sp : splitter) { + if (insert) { + it = Inserter<Container>::Insert(&m, First(sp), Second()); + } else { + it->second = Second(sp); + } + insert = !insert; + } + return m; + } + + // Inserts the key and value into the given map, returning an iterator to + // the inserted item. Specialized for std::map and std::multimap to use + // emplace() and adapt emplace()'s return value. + template <typename Map> + struct Inserter { + using M = Map; + template <typename... Args> + static typename M::iterator Insert(M* m, Args&&... args) { + return m->insert(std::make_pair(std::forward<Args>(args)...)).first; + } + }; + + template <typename... Ts> + struct Inserter<std::map<Ts...>> { + using M = std::map<Ts...>; + template <typename... Args> + static typename M::iterator Insert(M* m, Args&&... args) { + return m->emplace(std::make_pair(std::forward<Args>(args)...)).first; + } + }; + + template <typename... Ts> + struct Inserter<std::multimap<Ts...>> { + using M = std::multimap<Ts...>; + template <typename... Args> + static typename M::iterator Insert(M* m, Args&&... args) { + return m->emplace(std::make_pair(std::forward<Args>(args)...)); + } + }; + }; + + ConvertibleToStringView text_; + Delimiter delimiter_; + Predicate predicate_; +}; + +} // namespace strings_internal +} // namespace absl + +#endif // ABSL_STRINGS_INTERNAL_STR_SPLIT_INTERNAL_H_ |