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PODArray: Avoid call to memcpy with (nullptr, 0) arguments (#18526)
* Avoid call to memcpy with nullptr, 0 arguments * Add assert to PODArray * Fix build * Fix build * Minor fixes for min/sim hash * Fix build * Fix build * Fix build * Fix error * Fix "not actually an error" * Fix build * Fix build * Fix build
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@ -188,13 +188,13 @@ public:
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if (!limit_num_elems)
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{
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if (rhs_elems.value.size())
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cur_elems.value.insert(rhs_elems.value.begin(), rhs_elems.value.end(), arena);
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cur_elems.value.insertByOffsets(rhs_elems.value, 0, rhs_elems.value.size(), arena);
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}
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else
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{
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UInt64 elems_to_insert = std::min(static_cast<size_t>(max_elems) - cur_elems.value.size(), rhs_elems.value.size());
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if (elems_to_insert)
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cur_elems.value.insert(rhs_elems.value.begin(), rhs_elems.value.begin() + elems_to_insert, arena);
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cur_elems.value.insertByOffsets(rhs_elems.value, 0, elems_to_insert, arena);
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}
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}
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@ -89,8 +89,8 @@ protected:
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static constexpr size_t pad_right = integerRoundUp(pad_right_, ELEMENT_SIZE);
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/// pad_left is also rounded up to 16 bytes to maintain alignment of allocated memory.
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static constexpr size_t pad_left = integerRoundUp(integerRoundUp(pad_left_, ELEMENT_SIZE), 16);
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/// Empty array will point to this static memory as padding.
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static constexpr char * null = pad_left ? const_cast<char *>(empty_pod_array) + empty_pod_array_size : nullptr;
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/// Empty array will point to this static memory as padding and begin/end.
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static constexpr char * null = const_cast<char *>(empty_pod_array) + pad_left;
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static_assert(pad_left <= empty_pod_array_size && "Left Padding exceeds empty_pod_array_size. Is the element size too large?");
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@ -268,8 +268,11 @@ public:
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reserve(required_capacity, std::forward<TAllocatorParams>(allocator_params)...);
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size_t items_byte_size = byte_size(number_of_items);
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memcpy(c_end, ptr, items_byte_size);
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c_end += items_byte_size;
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if (items_byte_size)
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{
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memcpy(c_end, ptr, items_byte_size);
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c_end += items_byte_size;
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}
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}
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void protect()
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@ -289,6 +292,18 @@ public:
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#endif
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}
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template <typename It1, typename It2>
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inline void assertNotIntersects(It1 from_begin [[maybe_unused]], It2 from_end [[maybe_unused]])
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{
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#if !defined(NDEBUG)
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const char * ptr_begin = reinterpret_cast<const char *>(&*from_begin);
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const char * ptr_end = reinterpret_cast<const char *>(&*from_end);
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/// Also it's safe if the range is empty.
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assert(!((ptr_begin >= c_start && ptr_begin <= c_end) || (ptr_end >= c_start && ptr_end <= c_end)) || (ptr_begin == ptr_end));
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#endif
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}
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~PODArrayBase()
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{
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dealloc();
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@ -444,6 +459,7 @@ public:
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template <typename It1, typename It2, typename ... TAllocatorParams>
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void insertPrepare(It1 from_begin, It2 from_end, TAllocatorParams &&... allocator_params)
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{
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this->assertNotIntersects(from_begin, from_end);
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size_t required_capacity = this->size() + (from_end - from_begin);
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if (required_capacity > this->capacity())
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this->reserve(roundUpToPowerOfTwoOrZero(required_capacity), std::forward<TAllocatorParams>(allocator_params)...);
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@ -457,6 +473,28 @@ public:
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insert_assume_reserved(from_begin, from_end);
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}
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/// In contrast to 'insert' this method is Ok even for inserting from itself.
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/// Because we obtain iterators after reserving memory.
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template <typename Container, typename ... TAllocatorParams>
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void insertByOffsets(Container && rhs, size_t from_begin, size_t from_end, TAllocatorParams &&... allocator_params)
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{
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static_assert(memcpy_can_be_used_for_assignment<std::decay_t<T>, std::decay_t<decltype(rhs.front())>>);
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assert(from_end >= from_begin);
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assert(from_end <= rhs.size());
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size_t required_capacity = this->size() + (from_end - from_begin);
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if (required_capacity > this->capacity())
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this->reserve(roundUpToPowerOfTwoOrZero(required_capacity), std::forward<TAllocatorParams>(allocator_params)...);
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size_t bytes_to_copy = this->byte_size(from_end - from_begin);
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if (bytes_to_copy)
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{
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memcpy(this->c_end, reinterpret_cast<const void *>(rhs.begin() + from_begin), bytes_to_copy);
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this->c_end += bytes_to_copy;
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}
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}
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/// Works under assumption, that it's possible to read up to 15 excessive bytes after `from_end` and this PODArray is padded.
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template <typename It1, typename It2, typename ... TAllocatorParams>
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void insertSmallAllowReadWriteOverflow15(It1 from_begin, It2 from_end, TAllocatorParams &&... allocator_params)
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@ -476,6 +514,9 @@ public:
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static_assert(memcpy_can_be_used_for_assignment<std::decay_t<T>, std::decay_t<decltype(*from_begin)>>);
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size_t bytes_to_copy = this->byte_size(from_end - from_begin);
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if (!bytes_to_copy)
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return;
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size_t bytes_to_move = this->byte_size(end() - it);
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insertPrepare(from_begin, from_end);
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@ -492,10 +533,14 @@ public:
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void insert_assume_reserved(It1 from_begin, It2 from_end)
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{
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static_assert(memcpy_can_be_used_for_assignment<std::decay_t<T>, std::decay_t<decltype(*from_begin)>>);
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this->assertNotIntersects(from_begin, from_end);
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size_t bytes_to_copy = this->byte_size(from_end - from_begin);
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memcpy(this->c_end, reinterpret_cast<const void *>(&*from_begin), bytes_to_copy);
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this->c_end += bytes_to_copy;
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if (bytes_to_copy)
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{
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memcpy(this->c_end, reinterpret_cast<const void *>(&*from_begin), bytes_to_copy);
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this->c_end += bytes_to_copy;
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}
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}
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template <typename... TAllocatorParams>
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@ -626,15 +671,18 @@ public:
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void assign(It1 from_begin, It2 from_end, TAllocatorParams &&... allocator_params)
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{
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static_assert(memcpy_can_be_used_for_assignment<std::decay_t<T>, std::decay_t<decltype(*from_begin)>>);
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this->assertNotIntersects(from_begin, from_end);
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size_t required_capacity = from_end - from_begin;
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if (required_capacity > this->capacity())
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this->reserve_exact(required_capacity, std::forward<TAllocatorParams>(allocator_params)...);
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size_t bytes_to_copy = this->byte_size(required_capacity);
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memcpy(this->c_start, reinterpret_cast<const void *>(&*from_begin), bytes_to_copy);
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this->c_end = this->c_start + bytes_to_copy;
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if (bytes_to_copy)
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{
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memcpy(this->c_start, reinterpret_cast<const void *>(&*from_begin), bytes_to_copy);
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this->c_end = this->c_start + bytes_to_copy;
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}
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}
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// ISO C++ has strict ambiguity rules, thus we cannot apply TAllocatorParams here.
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