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3e934c8f5c
MozReview-Commit-ID: 8UaGt1OEfhh --HG-- extra : rebase_source : c084812d2e4d8633d049638dcd55b0b97db2c603
484 lines
15 KiB
C++
484 lines
15 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef mozilla_BufferList_h
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#define mozilla_BufferList_h
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#include <algorithm>
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#include "mozilla/AllocPolicy.h"
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#include "mozilla/Move.h"
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#include "mozilla/ScopeExit.h"
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#include "mozilla/Types.h"
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#include "mozilla/TypeTraits.h"
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#include "mozilla/Vector.h"
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#include <string.h>
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// BufferList represents a sequence of buffers of data. A BufferList can choose
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// to own its buffers or not. The class handles writing to the buffers,
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// iterating over them, and reading data out. Unlike SegmentedVector, the
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// buffers may be of unequal size. Like SegmentedVector, BufferList is a nice
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// way to avoid large contiguous allocations (which can trigger OOMs).
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namespace mozilla {
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template<typename AllocPolicy>
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class BufferList : private AllocPolicy
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{
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// Each buffer in a BufferList has a size and a capacity. The first mSize
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// bytes are initialized and the remaining |mCapacity - mSize| bytes are free.
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struct Segment
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{
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char* mData;
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size_t mSize;
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size_t mCapacity;
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Segment(char* aData, size_t aSize, size_t aCapacity)
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: mData(aData),
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mSize(aSize),
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mCapacity(aCapacity)
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{
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}
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Segment(const Segment&) = delete;
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Segment& operator=(const Segment&) = delete;
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Segment(Segment&&) = default;
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Segment& operator=(Segment&&) = default;
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char* Start() const { return mData; }
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char* End() const { return mData + mSize; }
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};
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template<typename OtherAllocPolicy>
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friend class BufferList;
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public:
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// For the convenience of callers, all segments are required to be a multiple
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// of 8 bytes in capacity. Also, every buffer except the last one is required
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// to be full (i.e., size == capacity). Therefore, a byte at offset N within
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// the BufferList and stored in memory at an address A will satisfy
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// (N % Align == A % Align) if Align == 2, 4, or 8.
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static const size_t kSegmentAlignment = 8;
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// Allocate a BufferList. The BufferList will free all its buffers when it is
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// destroyed. An initial buffer of size aInitialSize and capacity
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// aInitialCapacity is allocated automatically. This data will be contiguous
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// an can be accessed via |Start()|. Subsequent buffers will be allocated with
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// capacity aStandardCapacity.
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BufferList(size_t aInitialSize,
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size_t aInitialCapacity,
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size_t aStandardCapacity,
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AllocPolicy aAP = AllocPolicy())
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: AllocPolicy(aAP),
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mOwning(true),
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mSegments(aAP),
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mSize(0),
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mStandardCapacity(aStandardCapacity)
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{
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MOZ_ASSERT(aInitialCapacity % kSegmentAlignment == 0);
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MOZ_ASSERT(aStandardCapacity % kSegmentAlignment == 0);
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if (aInitialCapacity) {
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AllocateSegment(aInitialSize, aInitialCapacity);
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}
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}
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BufferList(const BufferList& aOther) = delete;
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BufferList(BufferList&& aOther)
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: mOwning(aOther.mOwning),
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mSegments(Move(aOther.mSegments)),
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mSize(aOther.mSize),
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mStandardCapacity(aOther.mStandardCapacity)
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{
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aOther.mSegments.clear();
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aOther.mSize = 0;
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}
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BufferList& operator=(const BufferList& aOther) = delete;
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BufferList& operator=(BufferList&& aOther)
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{
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Clear();
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mOwning = aOther.mOwning;
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mSegments = Move(aOther.mSegments);
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mSize = aOther.mSize;
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aOther.mSegments.clear();
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aOther.mSize = 0;
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return *this;
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}
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~BufferList() { Clear(); }
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// Returns the sum of the sizes of all the buffers.
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size_t Size() const { return mSize; }
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void Clear()
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{
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if (mOwning) {
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for (Segment& segment : mSegments) {
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this->free_(segment.mData);
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}
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}
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mSegments.clear();
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mSize = 0;
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}
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// Iterates over bytes in the segments. You can advance it by as many bytes as
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// you choose.
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class IterImpl
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{
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// Invariants:
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// (0) mSegment <= bufferList.mSegments.size()
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// (1) mData <= mDataEnd
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// (2) If mSegment is not the last segment, mData < mDataEnd
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uintptr_t mSegment;
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char* mData;
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char* mDataEnd;
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friend class BufferList;
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public:
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explicit IterImpl(const BufferList& aBuffers)
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: mSegment(0),
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mData(nullptr),
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mDataEnd(nullptr)
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{
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if (!aBuffers.mSegments.empty()) {
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mData = aBuffers.mSegments[0].Start();
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mDataEnd = aBuffers.mSegments[0].End();
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}
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}
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// Returns a pointer to the raw data. It is valid to access up to
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// RemainingInSegment bytes of this buffer.
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char* Data() const
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{
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MOZ_RELEASE_ASSERT(!Done());
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return mData;
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}
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// Returns true if the memory in the range [Data(), Data() + aBytes) is all
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// part of one contiguous buffer.
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bool HasRoomFor(size_t aBytes) const
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{
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MOZ_RELEASE_ASSERT(mData <= mDataEnd);
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return size_t(mDataEnd - mData) >= aBytes;
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}
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// Returns the maximum value aBytes for which HasRoomFor(aBytes) will be
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// true.
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size_t RemainingInSegment() const
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{
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MOZ_RELEASE_ASSERT(mData <= mDataEnd);
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return mDataEnd - mData;
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}
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// Advances the iterator by aBytes bytes. aBytes must be less than
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// RemainingInSegment(). If advancing by aBytes takes the iterator to the
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// end of a buffer, it will be moved to the beginning of the next buffer
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// unless it is the last buffer.
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void Advance(const BufferList& aBuffers, size_t aBytes)
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{
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const Segment& segment = aBuffers.mSegments[mSegment];
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MOZ_RELEASE_ASSERT(segment.Start() <= mData);
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MOZ_RELEASE_ASSERT(mData <= mDataEnd);
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MOZ_RELEASE_ASSERT(mDataEnd == segment.End());
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MOZ_RELEASE_ASSERT(HasRoomFor(aBytes));
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mData += aBytes;
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if (mData == mDataEnd && mSegment + 1 < aBuffers.mSegments.length()) {
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mSegment++;
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const Segment& nextSegment = aBuffers.mSegments[mSegment];
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mData = nextSegment.Start();
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mDataEnd = nextSegment.End();
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MOZ_RELEASE_ASSERT(mData < mDataEnd);
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}
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}
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// Advance the iterator by aBytes, possibly crossing segments. This function
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// returns false if it runs out of buffers to advance through. Otherwise it
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// returns true.
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bool AdvanceAcrossSegments(const BufferList& aBuffers, size_t aBytes)
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{
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size_t bytes = aBytes;
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while (bytes) {
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size_t toAdvance = std::min(bytes, RemainingInSegment());
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if (!toAdvance) {
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return false;
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}
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Advance(aBuffers, toAdvance);
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bytes -= toAdvance;
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}
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return true;
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}
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// Returns true when the iterator reaches the end of the BufferList.
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bool Done() const
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{
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return mData == mDataEnd;
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}
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};
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// Special convenience method that returns Iter().Data().
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char* Start() { return mSegments[0].mData; }
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const char* Start() const { return mSegments[0].mData; }
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IterImpl Iter() const { return IterImpl(*this); }
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// Copies aSize bytes from aData into the BufferList. The storage for these
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// bytes may be split across multiple buffers. Size() is increased by aSize.
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inline bool WriteBytes(const char* aData, size_t aSize);
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// Copies possibly non-contiguous byte range starting at aIter into
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// aData. aIter is advanced by aSize bytes. Returns false if it runs out of
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// data before aSize.
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inline bool ReadBytes(IterImpl& aIter, char* aData, size_t aSize) const;
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// Return a new BufferList that shares storage with this BufferList. The new
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// BufferList is read-only. It allows iteration over aSize bytes starting at
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// aIter. Borrow can fail, in which case *aSuccess will be false upon
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// return. The borrowed BufferList can use a different AllocPolicy than the
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// original one. However, it is not responsible for freeing buffers, so the
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// AllocPolicy is only used for the buffer vector.
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template<typename BorrowingAllocPolicy>
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BufferList<BorrowingAllocPolicy> Borrow(IterImpl& aIter, size_t aSize, bool* aSuccess,
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BorrowingAllocPolicy aAP = BorrowingAllocPolicy()) const;
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// Return a new BufferList and move storage from this BufferList to it. The
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// new BufferList owns the buffers. Move can fail, in which case *aSuccess
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// will be false upon return. The new BufferList can use a different
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// AllocPolicy than the original one. The new OtherAllocPolicy is responsible
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// for freeing buffers, so the OtherAllocPolicy must use freeing method
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// compatible to the original one.
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template<typename OtherAllocPolicy>
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BufferList<OtherAllocPolicy> MoveFallible(bool* aSuccess, OtherAllocPolicy aAP = OtherAllocPolicy());
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// Return a new BufferList that adopts the byte range starting at Iter so that
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// range [aIter, aIter + aSize) is transplanted to the returned BufferList.
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// Contents of the buffer before aIter + aSize is left undefined.
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// Extract can fail, in which case *aSuccess will be false upon return. The
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// moved buffers are erased from the original BufferList. In case of extract
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// fails, the original BufferList is intact. All other iterators except aIter
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// are invalidated.
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// This method requires aIter and aSize to be 8-byte aligned.
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BufferList Extract(IterImpl& aIter, size_t aSize, bool* aSuccess);
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private:
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explicit BufferList(AllocPolicy aAP)
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: AllocPolicy(aAP),
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mOwning(false),
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mSize(0),
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mStandardCapacity(0)
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{
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}
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void* AllocateSegment(size_t aSize, size_t aCapacity)
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{
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MOZ_RELEASE_ASSERT(mOwning);
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char* data = this->template pod_malloc<char>(aCapacity);
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if (!data) {
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return nullptr;
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}
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if (!mSegments.append(Segment(data, aSize, aCapacity))) {
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this->free_(data);
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return nullptr;
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}
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mSize += aSize;
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return data;
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}
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bool mOwning;
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Vector<Segment, 1, AllocPolicy> mSegments;
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size_t mSize;
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size_t mStandardCapacity;
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};
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template<typename AllocPolicy>
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bool
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BufferList<AllocPolicy>::WriteBytes(const char* aData, size_t aSize)
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{
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MOZ_RELEASE_ASSERT(mOwning);
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MOZ_RELEASE_ASSERT(mStandardCapacity);
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size_t copied = 0;
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size_t remaining = aSize;
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if (!mSegments.empty()) {
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Segment& lastSegment = mSegments.back();
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size_t toCopy = std::min(aSize, lastSegment.mCapacity - lastSegment.mSize);
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memcpy(lastSegment.mData + lastSegment.mSize, aData, toCopy);
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lastSegment.mSize += toCopy;
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mSize += toCopy;
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copied += toCopy;
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remaining -= toCopy;
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}
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while (remaining) {
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size_t toCopy = std::min(remaining, mStandardCapacity);
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void* data = AllocateSegment(toCopy, mStandardCapacity);
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if (!data) {
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return false;
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}
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memcpy(data, aData + copied, toCopy);
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copied += toCopy;
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remaining -= toCopy;
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}
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return true;
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}
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template<typename AllocPolicy>
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bool
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BufferList<AllocPolicy>::ReadBytes(IterImpl& aIter, char* aData, size_t aSize) const
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{
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size_t copied = 0;
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size_t remaining = aSize;
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while (remaining) {
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size_t toCopy = std::min(aIter.RemainingInSegment(), remaining);
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if (!toCopy) {
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// We've run out of data in the last segment.
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return false;
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}
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memcpy(aData + copied, aIter.Data(), toCopy);
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copied += toCopy;
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remaining -= toCopy;
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aIter.Advance(*this, toCopy);
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}
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return true;
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}
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template<typename AllocPolicy> template<typename BorrowingAllocPolicy>
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BufferList<BorrowingAllocPolicy>
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BufferList<AllocPolicy>::Borrow(IterImpl& aIter, size_t aSize, bool* aSuccess,
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BorrowingAllocPolicy aAP) const
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{
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BufferList<BorrowingAllocPolicy> result(aAP);
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size_t size = aSize;
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while (size) {
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size_t toAdvance = std::min(size, aIter.RemainingInSegment());
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if (!toAdvance || !result.mSegments.append(typename BufferList<BorrowingAllocPolicy>::Segment(aIter.mData, toAdvance, toAdvance))) {
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*aSuccess = false;
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return result;
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}
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aIter.Advance(*this, toAdvance);
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size -= toAdvance;
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}
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result.mSize = aSize;
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*aSuccess = true;
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return result;
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}
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template<typename AllocPolicy> template<typename OtherAllocPolicy>
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BufferList<OtherAllocPolicy>
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BufferList<AllocPolicy>::MoveFallible(bool* aSuccess, OtherAllocPolicy aAP)
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{
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BufferList<OtherAllocPolicy> result(0, 0, mStandardCapacity, aAP);
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IterImpl iter = Iter();
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while (!iter.Done()) {
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size_t toAdvance = iter.RemainingInSegment();
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if (!toAdvance || !result.mSegments.append(typename BufferList<OtherAllocPolicy>::Segment(iter.mData, toAdvance, toAdvance))) {
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*aSuccess = false;
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result.mSegments.clear();
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return result;
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}
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iter.Advance(*this, toAdvance);
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}
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result.mSize = mSize;
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mSegments.clear();
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mSize = 0;
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*aSuccess = true;
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return result;
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}
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template<typename AllocPolicy>
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BufferList<AllocPolicy>
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BufferList<AllocPolicy>::Extract(IterImpl& aIter, size_t aSize, bool* aSuccess)
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{
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MOZ_RELEASE_ASSERT(aSize);
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MOZ_RELEASE_ASSERT(mOwning);
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MOZ_ASSERT(aSize % kSegmentAlignment == 0);
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MOZ_ASSERT(intptr_t(aIter.mData) % kSegmentAlignment == 0);
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IterImpl iter = aIter;
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size_t size = aSize;
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size_t toCopy = std::min(size, aIter.RemainingInSegment());
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MOZ_ASSERT(toCopy % kSegmentAlignment == 0);
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BufferList result(0, toCopy, mStandardCapacity);
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BufferList error(0, 0, mStandardCapacity);
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// Copy the head
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if (!result.WriteBytes(aIter.mData, toCopy)) {
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*aSuccess = false;
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return error;
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}
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iter.Advance(*this, toCopy);
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size -= toCopy;
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// Move segments to result
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auto resultGuard = MakeScopeExit([&] {
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*aSuccess = false;
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result.mSegments.erase(result.mSegments.begin()+1, result.mSegments.end());
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});
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size_t movedSize = 0;
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uintptr_t toRemoveStart = iter.mSegment;
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uintptr_t toRemoveEnd = iter.mSegment;
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while (!iter.Done() &&
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!iter.HasRoomFor(size)) {
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if (!result.mSegments.append(Segment(mSegments[iter.mSegment].mData,
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mSegments[iter.mSegment].mSize,
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mSegments[iter.mSegment].mCapacity))) {
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return error;
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}
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movedSize += iter.RemainingInSegment();
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size -= iter.RemainingInSegment();
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toRemoveEnd++;
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iter.Advance(*this, iter.RemainingInSegment());
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}
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if (size) {
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if (!iter.HasRoomFor(size) ||
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!result.WriteBytes(iter.Data(), size)) {
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return error;
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}
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iter.Advance(*this, size);
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}
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mSegments.erase(mSegments.begin() + toRemoveStart, mSegments.begin() + toRemoveEnd);
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mSize -= movedSize;
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aIter.mSegment = iter.mSegment - (toRemoveEnd - toRemoveStart);
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aIter.mData = iter.mData;
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aIter.mDataEnd = iter.mDataEnd;
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MOZ_ASSERT(aIter.mDataEnd == mSegments[aIter.mSegment].End());
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result.mSize = aSize;
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resultGuard.release();
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*aSuccess = true;
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return result;
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}
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} // namespace mozilla
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#endif /* mozilla_BufferList_h */
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