| 1 | //===- llvm/ADT/SmallVector.cpp - 'Normally small' vectors ----------------===// |
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| 2 | // |
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| 3 | // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
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| 4 | // See https://llvm.org/LICENSE.txt for license information. |
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| 5 | // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
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| 6 | // |
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| 7 | //===----------------------------------------------------------------------===// |
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| 8 | // |
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| 9 | // This file implements the SmallVector class. |
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| 10 | // |
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| 11 | //===----------------------------------------------------------------------===// |
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| 12 | |
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| 13 | #include "llvm/ADT/SmallVector.h" |
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| 14 | #include "llvm/ADT/Twine.h" |
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| 15 | #include "llvm/Support/MemAlloc.h" |
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| 16 | #include <cstdint> |
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| 17 | #ifdef LLVM_ENABLE_EXCEPTIONS |
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| 18 | #include <stdexcept> |
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| 19 | #endif |
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| 20 | using namespace llvm; |
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| 21 | |
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| 22 | // Check that no bytes are wasted and everything is well-aligned. |
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| 23 | namespace { |
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| 24 | // These structures may cause binary compat warnings on AIX. Suppress the |
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| 25 | // warning since we are only using these types for the static assertions below. |
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| 26 | #if defined(_AIX) |
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| 27 | #pragma GCC diagnostic push |
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| 28 | #pragma GCC diagnostic ignored "-Waix-compat" |
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| 29 | #endif |
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| 30 | struct Struct16B { |
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| 31 | alignas(16) void *X; |
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| 32 | }; |
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| 33 | struct Struct32B { |
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| 34 | alignas(32) void *X; |
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| 35 | }; |
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| 36 | #if defined(_AIX) |
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| 37 | #pragma GCC diagnostic pop |
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| 38 | #endif |
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| 39 | } |
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| 40 | static_assert(sizeof(SmallVector<void *, 0>) == |
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| 41 | sizeof(unsigned) * 2 + sizeof(void *), |
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| 42 | "wasted space in SmallVector size 0" ); |
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| 43 | static_assert(alignof(SmallVector<Struct16B, 0>) >= alignof(Struct16B), |
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| 44 | "wrong alignment for 16-byte aligned T" ); |
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| 45 | static_assert(alignof(SmallVector<Struct32B, 0>) >= alignof(Struct32B), |
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| 46 | "wrong alignment for 32-byte aligned T" ); |
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| 47 | static_assert(sizeof(SmallVector<Struct16B, 0>) >= alignof(Struct16B), |
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| 48 | "missing padding for 16-byte aligned T" ); |
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| 49 | static_assert(sizeof(SmallVector<Struct32B, 0>) >= alignof(Struct32B), |
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| 50 | "missing padding for 32-byte aligned T" ); |
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| 51 | static_assert(sizeof(SmallVector<void *, 1>) == |
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| 52 | sizeof(unsigned) * 2 + sizeof(void *) * 2, |
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| 53 | "wasted space in SmallVector size 1" ); |
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| 54 | |
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| 55 | static_assert(sizeof(SmallVector<char, 0>) == |
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| 56 | sizeof(void *) * 2 + sizeof(void *), |
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| 57 | "1 byte elements have word-sized type for size and capacity" ); |
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| 58 | |
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| 59 | /// Report that MinSize doesn't fit into this vector's size type. Throws |
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| 60 | /// std::length_error or calls report_fatal_error. |
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| 61 | [[noreturn]] static void report_size_overflow(size_t MinSize, size_t MaxSize); |
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| 62 | static void report_size_overflow(size_t MinSize, size_t MaxSize) { |
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| 63 | std::string Reason = "SmallVector unable to grow. Requested capacity (" + |
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| 64 | std::to_string(val: MinSize) + |
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| 65 | ") is larger than maximum value for size type (" + |
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| 66 | std::to_string(val: MaxSize) + ")" ; |
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| 67 | #ifdef LLVM_ENABLE_EXCEPTIONS |
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| 68 | throw std::length_error(Reason); |
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| 69 | #else |
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| 70 | report_fatal_error(reason: Twine(Reason)); |
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| 71 | #endif |
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| 72 | } |
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| 73 | |
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| 74 | /// Report that this vector is already at maximum capacity. Throws |
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| 75 | /// std::length_error or calls report_fatal_error. |
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| 76 | [[noreturn]] static void report_at_maximum_capacity(size_t MaxSize); |
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| 77 | static void report_at_maximum_capacity(size_t MaxSize) { |
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| 78 | std::string Reason = |
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| 79 | "SmallVector capacity unable to grow. Already at maximum size " + |
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| 80 | std::to_string(val: MaxSize); |
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| 81 | #ifdef LLVM_ENABLE_EXCEPTIONS |
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| 82 | throw std::length_error(Reason); |
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| 83 | #else |
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| 84 | report_fatal_error(reason: Twine(Reason)); |
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| 85 | #endif |
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| 86 | } |
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| 87 | |
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| 88 | // Note: Moving this function into the header may cause performance regression. |
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| 89 | template <class Size_T> |
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| 90 | static size_t getNewCapacity(size_t MinSize, size_t TSize, size_t OldCapacity) { |
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| 91 | constexpr size_t MaxSize = std::numeric_limits<Size_T>::max(); |
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| 92 | |
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| 93 | // Ensure we can fit the new capacity. |
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| 94 | // This is only going to be applicable when the capacity is 32 bit. |
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| 95 | if (MinSize > MaxSize) |
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| 96 | report_size_overflow(MinSize, MaxSize); |
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| 97 | |
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| 98 | // Ensure we can meet the guarantee of space for at least one more element. |
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| 99 | // The above check alone will not catch the case where grow is called with a |
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| 100 | // default MinSize of 0, but the current capacity cannot be increased. |
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| 101 | // This is only going to be applicable when the capacity is 32 bit. |
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| 102 | if (OldCapacity == MaxSize) |
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| 103 | report_at_maximum_capacity(MaxSize); |
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| 104 | |
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| 105 | // In theory 2*capacity can overflow if the capacity is 64 bit, but the |
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| 106 | // original capacity would never be large enough for this to be a problem. |
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| 107 | size_t NewCapacity = 2 * OldCapacity + 1; // Always grow. |
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| 108 | return std::clamp(val: NewCapacity, lo: MinSize, hi: MaxSize); |
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| 109 | } |
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| 110 | |
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| 111 | /// If vector was first created with capacity 0, getFirstEl() points to the |
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| 112 | /// memory right after, an area unallocated. If a subsequent allocation, |
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| 113 | /// that grows the vector, happens to return the same pointer as getFirstEl(), |
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| 114 | /// get a new allocation, otherwise isSmall() will falsely return that no |
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| 115 | /// allocation was done (true) and the memory will not be freed in the |
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| 116 | /// destructor. If a VSize is given (vector size), also copy that many |
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| 117 | /// elements to the new allocation - used if realloca fails to increase |
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| 118 | /// space, and happens to allocate precisely at BeginX. |
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| 119 | /// This is unlikely to be called often, but resolves a memory leak when the |
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| 120 | /// situation does occur. |
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| 121 | static void *replaceAllocation(void *NewElts, size_t TSize, size_t NewCapacity, |
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| 122 | size_t VSize = 0) { |
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| 123 | void *NewEltsReplace = llvm::safe_malloc(Sz: NewCapacity * TSize); |
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| 124 | if (VSize) |
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| 125 | memcpy(dest: NewEltsReplace, src: NewElts, n: VSize * TSize); |
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| 126 | free(ptr: NewElts); |
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| 127 | return NewEltsReplace; |
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| 128 | } |
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| 129 | |
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| 130 | // Note: Moving this function into the header may cause performance regression. |
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| 131 | template <class Size_T> |
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| 132 | void *SmallVectorBase<Size_T>::mallocForGrow(void *FirstEl, size_t MinSize, |
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| 133 | size_t TSize, |
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| 134 | size_t &NewCapacity) { |
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| 135 | NewCapacity = getNewCapacity<Size_T>(MinSize, TSize, this->capacity()); |
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| 136 | // Even if capacity is not 0 now, if the vector was originally created with |
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| 137 | // capacity 0, it's possible for the malloc to return FirstEl. |
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| 138 | void *NewElts = llvm::safe_malloc(Sz: NewCapacity * TSize); |
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| 139 | if (NewElts == FirstEl) |
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| 140 | NewElts = replaceAllocation(NewElts, TSize, NewCapacity); |
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| 141 | return NewElts; |
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| 142 | } |
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| 143 | |
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| 144 | // Note: Moving this function into the header may cause performance regression. |
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| 145 | template <class Size_T> |
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| 146 | void SmallVectorBase<Size_T>::grow_pod(void *FirstEl, size_t MinSize, |
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| 147 | size_t TSize) { |
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| 148 | size_t NewCapacity = getNewCapacity<Size_T>(MinSize, TSize, this->capacity()); |
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| 149 | void *NewElts; |
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| 150 | if (BeginX == FirstEl) { |
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| 151 | NewElts = llvm::safe_malloc(Sz: NewCapacity * TSize); |
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| 152 | if (NewElts == FirstEl) |
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| 153 | NewElts = replaceAllocation(NewElts, TSize, NewCapacity); |
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| 154 | |
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| 155 | // Copy the elements over. No need to run dtors on PODs. |
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| 156 | memcpy(NewElts, this->BeginX, size() * TSize); |
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| 157 | } else { |
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| 158 | // If this wasn't grown from the inline copy, grow the allocated space. |
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| 159 | NewElts = llvm::safe_realloc(Ptr: this->BeginX, Sz: NewCapacity * TSize); |
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| 160 | if (NewElts == FirstEl) |
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| 161 | NewElts = replaceAllocation(NewElts, TSize, NewCapacity, size()); |
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| 162 | } |
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| 163 | |
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| 164 | this->set_allocation_range(NewElts, NewCapacity); |
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| 165 | } |
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| 166 | |
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| 167 | template class llvm::SmallVectorBase<uint32_t>; |
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| 168 | |
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| 169 | // Disable the uint64_t instantiation for 32-bit builds. |
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| 170 | // Both uint32_t and uint64_t instantiations are needed for 64-bit builds. |
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| 171 | // This instantiation will never be used in 32-bit builds, and will cause |
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| 172 | // warnings when sizeof(Size_T) > sizeof(size_t). |
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| 173 | #if SIZE_MAX > UINT32_MAX |
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| 174 | template class llvm::SmallVectorBase<uint64_t>; |
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| 175 | |
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| 176 | // Assertions to ensure this #if stays in sync with SmallVectorSizeType. |
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| 177 | static_assert(sizeof(SmallVectorSizeType<char>) == sizeof(uint64_t), |
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| 178 | "Expected SmallVectorBase<uint64_t> variant to be in use." ); |
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| 179 | #else |
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| 180 | static_assert(sizeof(SmallVectorSizeType<char>) == sizeof(uint32_t), |
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| 181 | "Expected SmallVectorBase<uint32_t> variant to be in use." ); |
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| 182 | #endif |
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| 183 | |
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