// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef TOOLS_GN_UNIQUE_VECTOR_H_ #define TOOLS_GN_UNIQUE_VECTOR_H_ #include #include "base/containers/hash_tables.h" namespace internal { // This lass allows us to insert things by reference into a hash table which // avoids copies. The hash function of a UniquifyRef is that of the object it // points to. // // There are two ways it can store data: (1) by (vector*, index) which is used // to refer to the array in UniqueVector and make it work even when the // underlying vector is reallocated; (2) by T* which is used to do lookups // into the hash table of things that aren't in a vector yet. // // It also caches the hash value which allows us to query and then insert // without recomputing the hash. template class UniquifyRef { public: UniquifyRef() : value_(NULL), vect_(NULL), index_(static_cast(-1)), hash_val_(0) { } // Initialize with a pointer to a value. UniquifyRef(const T* v) : value_(v), vect_(NULL), index_(static_cast(-1)) { FillHashValue(); } // Initialize with an array + index. UniquifyRef(const std::vector* v, size_t i) : value_(NULL), vect_(v), index_(i) { FillHashValue(); } // Initialize with an array + index and a known hash value to prevent // re-hashing. UniquifyRef(const std::vector* v, size_t i, size_t hash_value) : value_(NULL), vect_(v), index_(i), hash_val_(hash_value) { } const T& value() const { return value_ ? *value_ : (*vect_)[index_]; } size_t hash_val() const { return hash_val_; } size_t index() const { return index_; } private: void FillHashValue() { #if defined(COMPILER_GCC) BASE_HASH_NAMESPACE::hash h; hash_val_ = h(value()); #elif defined(COMPILER_MSVC) hash_val_ = BASE_HASH_NAMESPACE::hash_value(value()); #else #error write me #endif // COMPILER... } // When non-null, points to the object. const T* value_; // When value is null these are used. const std::vector* vect_; size_t index_; size_t hash_val_; }; template inline bool operator==(const UniquifyRef& a, const UniquifyRef& b) { return a.value() == b.value(); } template inline bool operator<(const UniquifyRef& a, const UniquifyRef& b) { return a.value() < b.value(); } } // namespace internal namespace BASE_HASH_NAMESPACE { #if defined(COMPILER_GCC) template struct hash< internal::UniquifyRef > { std::size_t operator()(const internal::UniquifyRef& v) const { return v.hash_val(); } }; #elif defined(COMPILER_MSVC) template inline size_t hash_value(const internal::UniquifyRef& v) { return v.hash_val(); } #endif // COMPILER... } // namespace BASE_HASH_NAMESPACE // An ordered set optimized for GN's usage. Such sets are used to store lists // of configs and libraries, and are appended to but not randomly inserted // into. template class UniqueVector { public: typedef std::vector Vector; typedef typename Vector::iterator iterator; typedef typename Vector::const_iterator const_iterator; const Vector& vector() const { return vector_; } size_t size() const { return vector_.size(); } bool empty() const { return vector_.empty(); } void clear() { vector_.clear(); set_.clear(); } void reserve(size_t s) { vector_.reserve(s); } const T& operator[](size_t index) const { return vector_[index]; } const_iterator begin() const { return vector_.begin(); } iterator begin() { return vector_.begin(); } const_iterator end() const { return vector_.end(); } iterator end() { return vector_.end(); } // Returns true if the item was appended, false if it already existed (and // thus the vector was not modified). bool push_back(const T& t) { Ref ref(&t); if (set_.find(ref) != set_.end()) return false; // Already have this one. vector_.push_back(t); set_.insert(Ref(&vector_, vector_.size() - 1, ref.hash_val())); return true; } // Like push_back but swaps in the type to avoid a copy. bool PushBackViaSwap(T* t) { using std::swap; Ref ref(t); if (set_.find(ref) != set_.end()) return false; // Already have this one. size_t new_index = vector_.size(); vector_.resize(new_index + 1); swap(vector_[new_index], *t); set_.insert(Ref(&vector_, vector_.size() - 1, ref.hash_val())); return true; } // Appends a range of items from an iterator. template void Append(const iter& begin, const iter& end) { for (iter i = begin; i != end; ++i) push_back(*i); } // Returns the index of the item matching the given value in the list, or // (size_t)(-1) if it's not found. size_t IndexOf(const T& t) const { Ref ref(&t); typename HashSet::const_iterator found = set_.find(ref); if (found == set_.end()) return static_cast(-1); return found->index(); } private: typedef internal::UniquifyRef Ref; typedef base::hash_set HashSet; HashSet set_; Vector vector_; }; #endif // TOOLS_GN_UNIQUE_VECTOR_H_