/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsDeque.h" #include "nsISupportsImpl.h" #include #ifdef DEBUG_rickg #include #endif #include "mozilla/CheckedInt.h" #define modulus(x,y) ((x)%(y)) /** * Standard constructor * @param deallocator, called by Erase and ~nsDeque */ nsDeque::nsDeque(nsDequeFunctor* aDeallocator) { MOZ_COUNT_CTOR(nsDeque); mDeallocator = aDeallocator; mOrigin = mSize = 0; mData = mBuffer; // don't allocate space until you must mCapacity = sizeof(mBuffer) / sizeof(mBuffer[0]); memset(mData, 0, mCapacity * sizeof(mBuffer[0])); } /** * Destructor */ nsDeque::~nsDeque() { MOZ_COUNT_DTOR(nsDeque); #ifdef DEBUG_rickg char buffer[30]; printf("Capacity: %i\n", mCapacity); static int mCaps[15] = {0}; switch (mCapacity) { case 4: mCaps[0]++; break; case 8: mCaps[1]++; break; case 16: mCaps[2]++; break; case 32: mCaps[3]++; break; case 64: mCaps[4]++; break; case 128: mCaps[5]++; break; case 256: mCaps[6]++; break; case 512: mCaps[7]++; break; case 1024: mCaps[8]++; break; case 2048: mCaps[9]++; break; case 4096: mCaps[10]++; break; default: break; } #endif Erase(); if (mData && mData != mBuffer) { free(mData); } mData = 0; SetDeallocator(0); } size_t nsDeque::SizeOfExcludingThis(mozilla::MallocSizeOf aMallocSizeOf) const { size_t size = 0; if (mData != mBuffer) { size += aMallocSizeOf(mData); } if (mDeallocator) { size += aMallocSizeOf(mDeallocator); } return size; } size_t nsDeque::SizeOfIncludingThis(mozilla::MallocSizeOf aMallocSizeOf) const { return aMallocSizeOf(this) + SizeOfExcludingThis(aMallocSizeOf); } /** * Set the functor to be called by Erase() * The deque owns the functor. * * @param aDeallocator functor object for use by Erase() */ void nsDeque::SetDeallocator(nsDequeFunctor* aDeallocator) { delete mDeallocator; mDeallocator = aDeallocator; } /** * Remove all items from container without destroying them. */ void nsDeque::Empty() { if (mSize && mData) { memset(mData, 0, mCapacity * sizeof(*mData)); } mSize = 0; mOrigin = 0; } /** * Remove and delete all items from container */ void nsDeque::Erase() { if (mDeallocator && mSize) { ForEach(*mDeallocator); } Empty(); } /** * This method quadruples the size of the deque * Elements in the deque are resequenced so that elements * in the deque are stored sequentially * * @return whether growing succeeded */ bool nsDeque::GrowCapacity() { mozilla::CheckedInt newCapacity = mCapacity; newCapacity *= 4; NS_ASSERTION(newCapacity.isValid(), "Overflow"); if (!newCapacity.isValid()) { return false; } // Sanity check the new byte size. mozilla::CheckedInt newByteSize = newCapacity; newByteSize *= sizeof(void*); NS_ASSERTION(newByteSize.isValid(), "Overflow"); if (!newByteSize.isValid()) { return false; } void** temp = (void**)malloc(newByteSize.value()); if (!temp) { return false; } //Here's the interesting part: You can't just move the elements //directly (in situ) from the old buffer to the new one. //Since capacity has changed, the old origin doesn't make //sense anymore. It's better to resequence the elements now. memcpy(temp, mData + mOrigin, sizeof(void*) * (mCapacity - mOrigin)); memcpy(temp + (mCapacity - mOrigin), mData, sizeof(void*) * mOrigin); if (mData != mBuffer) { free(mData); } mCapacity = newCapacity.value(); mOrigin = 0; //now realign the origin... mData = temp; return true; } /** * This method adds an item to the end of the deque. * This operation has the potential to cause the * underlying buffer to resize. * * @param aItem: new item to be added to deque */ bool nsDeque::Push(void* aItem, const fallible_t&) { if (mSize == mCapacity && !GrowCapacity()) { return false; } mData[modulus(mOrigin + mSize, mCapacity)] = aItem; mSize++; return true; } /** * This method adds an item to the front of the deque. * This operation has the potential to cause the * underlying buffer to resize. * * --Commments for GrowCapacity() case * We've grown and shifted which means that the old * final element in the deque is now the first element * in the deque. This is temporary. * We haven't inserted the new element at the front. * * To continue with the idea of having the front at zero * after a grow, we move the old final item (which through * the voodoo of mOrigin-- is now the first) to its final * position which is conveniently the old length. * * Note that this case only happens when the deque is full. * [And that pieces of this magic only work if the deque is full.] * picture: * [ABCDEFGH] @[mOrigin:3]:D. * Task: PushFront("Z") * shift mOrigin so, @[mOrigin:2]:C * stretch and rearrange: (mOrigin:0) * [CDEFGHAB ________ ________ ________] * copy: (The second C is currently out of bounds) * [CDEFGHAB C_______ ________ ________] * later we will insert Z: * [ZDEFGHAB C_______ ________ ________] * and increment size: 9. (C is no longer out of bounds) * -- * @param aItem: new item to be added to deque */ bool nsDeque::PushFront(void* aItem, const fallible_t&) { if (mOrigin == 0) { mOrigin = mCapacity - 1; } else { mOrigin--; } if (mSize == mCapacity) { if (!GrowCapacity()) { return false; } /* Comments explaining this are above*/ mData[mSize] = mData[mOrigin]; } mData[mOrigin] = aItem; mSize++; return true; } /** * Remove and return the last item in the container. * * @return ptr to last item in container */ void* nsDeque::Pop() { void* result = 0; if (mSize > 0) { --mSize; size_t offset = modulus(mSize + mOrigin, mCapacity); result = mData[offset]; mData[offset] = 0; if (!mSize) { mOrigin = 0; } } return result; } /** * This method gets called you want to remove and return * the first member in the container. * * @return last item in container */ void* nsDeque::PopFront() { void* result = 0; if (mSize > 0) { NS_ASSERTION(mOrigin < mCapacity, "Error: Bad origin"); result = mData[mOrigin]; mData[mOrigin++] = 0; //zero it out for debugging purposes. mSize--; // Cycle around if we pop off the end // and reset origin if when we pop the last element if (mCapacity == mOrigin || !mSize) { mOrigin = 0; } } return result; } /** * This method gets called you want to peek at the bottom * member without removing it. * * @return last item in container */ void* nsDeque::Peek() const { void* result = 0; if (mSize > 0) { result = mData[modulus(mSize - 1 + mOrigin, mCapacity)]; } return result; } /** * This method gets called you want to peek at the topmost * member without removing it. * * @return last item in container */ void* nsDeque::PeekFront() const { void* result = 0; if (mSize > 0) { result = mData[mOrigin]; } return result; } /** * Call this to retrieve the ith element from this container. * Keep in mind that accessing the underlying elements is * done in a relative fashion. Object 0 is not necessarily * the first element (the first element is at mOrigin). * * @param aIndex : 0 relative offset of item you want * @return void* or null */ void* nsDeque::ObjectAt(size_t aIndex) const { void* result = 0; if (aIndex < mSize) { result = mData[modulus(mOrigin + aIndex, mCapacity)]; } return result; } /** * Call this method when you want to iterate all the * members of the container, passing a functor along * to call your code. * * @param aFunctor object to call for each member * @return *this */ void nsDeque::ForEach(nsDequeFunctor& aFunctor) const { for (size_t i = 0; i < mSize; ++i) { aFunctor(ObjectAt(i)); } }