// Copyright (c) 2016 Google Inc. // // 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. #ifndef SOURCE_ENUM_SET_H_ #define SOURCE_ENUM_SET_H_ #include #include #include #include #include #include "source/latest_version_spirv_header.h" #include "source/util/make_unique.h" namespace spvtools { // A set of values of a 32-bit enum type. // It is fast and compact for the common case, where enum values // are at most 63. But it can represent enums with larger values, // as may appear in extensions. template class EnumSet { private: // The ForEach method will call the functor on enum values in // enum value order (lowest to highest). To make that easier, use // an ordered set for the overflow values. using OverflowSetType = std::set; public: // Construct an empty set. EnumSet() {} // Construct an set with just the given enum value. explicit EnumSet(EnumType c) { Add(c); } // Construct an set from an initializer list of enum values. EnumSet(std::initializer_list cs) { for (auto c : cs) Add(c); } EnumSet(uint32_t count, const EnumType* ptr) { for (uint32_t i = 0; i < count; ++i) Add(ptr[i]); } // Copy constructor. EnumSet(const EnumSet& other) { *this = other; } // Move constructor. The moved-from set is emptied. EnumSet(EnumSet&& other) { mask_ = other.mask_; overflow_ = std::move(other.overflow_); other.mask_ = 0; other.overflow_.reset(nullptr); } // Assignment operator. EnumSet& operator=(const EnumSet& other) { if (&other != this) { mask_ = other.mask_; overflow_.reset(other.overflow_ ? new OverflowSetType(*other.overflow_) : nullptr); } return *this; } friend bool operator==(const EnumSet& a, const EnumSet& b) { if (a.mask_ != b.mask_) { return false; } if (a.overflow_ == nullptr && b.overflow_ == nullptr) { return true; } if (a.overflow_ == nullptr || b.overflow_ == nullptr) { return false; } return *a.overflow_ == *b.overflow_; } friend bool operator!=(const EnumSet& a, const EnumSet& b) { return !(a == b); } // Adds the given enum value to the set. This has no effect if the // enum value is already in the set. void Add(EnumType c) { AddWord(ToWord(c)); } // Removes the given enum value from the set. This has no effect if the // enum value is not in the set. void Remove(EnumType c) { RemoveWord(ToWord(c)); } // Returns true if this enum value is in the set. bool Contains(EnumType c) const { return ContainsWord(ToWord(c)); } // Applies f to each enum in the set, in order from smallest enum // value to largest. void ForEach(std::function f) const { for (uint32_t i = 0; i < 64; ++i) { if (mask_ & AsMask(i)) f(static_cast(i)); } if (overflow_) { for (uint32_t c : *overflow_) f(static_cast(c)); } } // Returns true if the set is empty. bool IsEmpty() const { if (mask_) return false; if (overflow_ && !overflow_->empty()) return false; return true; } // Returns true if the set contains ANY of the elements of |in_set|, // or if |in_set| is empty. bool HasAnyOf(const EnumSet& in_set) const { if (in_set.IsEmpty()) return true; if (mask_ & in_set.mask_) return true; if (!overflow_ || !in_set.overflow_) return false; for (uint32_t item : *in_set.overflow_) { if (overflow_->find(item) != overflow_->end()) return true; } return false; } private: // Adds the given enum value (as a 32-bit word) to the set. This has no // effect if the enum value is already in the set. void AddWord(uint32_t word) { if (auto new_bits = AsMask(word)) { mask_ |= new_bits; } else { Overflow().insert(word); } } // Removes the given enum value (as a 32-bit word) from the set. This has no // effect if the enum value is not in the set. void RemoveWord(uint32_t word) { if (auto new_bits = AsMask(word)) { mask_ &= ~new_bits; } else { auto itr = Overflow().find(word); if (itr != Overflow().end()) Overflow().erase(itr); } } // Returns true if the enum represented as a 32-bit word is in the set. bool ContainsWord(uint32_t word) const { // We shouldn't call Overflow() since this is a const method. if (auto bits = AsMask(word)) { return (mask_ & bits) != 0; } else if (auto overflow = overflow_.get()) { return overflow->find(word) != overflow->end(); } // The word is large, but the set doesn't have large members, so // it doesn't have an overflow set. return false; } // Returns the enum value as a uint32_t. uint32_t ToWord(EnumType value) const { static_assert(sizeof(EnumType) <= sizeof(uint32_t), "EnumType must statically castable to uint32_t"); return static_cast(value); } // Determines whether the given enum value can be represented // as a bit in a uint64_t mask. If so, then returns that mask bit. // Otherwise, returns 0. uint64_t AsMask(uint32_t word) const { if (word > 63) return 0; return uint64_t(1) << word; } // Ensures that overflow_set_ references a set. A new empty set is // allocated if one doesn't exist yet. Returns overflow_set_. OverflowSetType& Overflow() { if (overflow_.get() == nullptr) { overflow_ = MakeUnique(); } return *overflow_; } // Enums with values up to 63 are stored as bits in this mask. uint64_t mask_ = 0; // Enums with values larger than 63 are stored in this set. // This set should normally be empty or very small. std::unique_ptr overflow_ = {}; }; // A set of spv::Capability, optimized for small capability values. using CapabilitySet = EnumSet; } // namespace spvtools #endif // SOURCE_ENUM_SET_H_