/*
* Copyright (C) 2013 The Android Open Source Project
*
* 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.
*/
#include "dictionary/utils/buffer_with_extendable_buffer.h"
namespace latinime {
const size_t BufferWithExtendableBuffer::DEFAULT_MAX_ADDITIONAL_BUFFER_SIZE = 1024 * 1024;
const int BufferWithExtendableBuffer::NEAR_BUFFER_LIMIT_THRESHOLD_PERCENTILE = 90;
// TODO: Needs to allocate larger memory corresponding to the current vector size.
const size_t BufferWithExtendableBuffer::EXTEND_ADDITIONAL_BUFFER_SIZE_STEP = 128 * 1024;
uint32_t BufferWithExtendableBuffer::readUint(const int size, const int pos) const {
const bool readingPosIsInAdditionalBuffer = isInAdditionalBuffer(pos);
const int posInBuffer = readingPosIsInAdditionalBuffer ? pos - mOriginalBuffer.size() : pos;
return ByteArrayUtils::readUint(getBuffer(readingPosIsInAdditionalBuffer), size, posInBuffer);
}
uint32_t BufferWithExtendableBuffer::readUintAndAdvancePosition(const int size,
int *const pos) const {
const uint32_t value = readUint(size, *pos);
*pos += size;
return value;
}
void BufferWithExtendableBuffer::readCodePointsAndAdvancePosition(const int maxCodePointCount,
int *const outCodePoints, int *outCodePointCount, int *const pos) const {
const bool readingPosIsInAdditionalBuffer = isInAdditionalBuffer(*pos);
if (readingPosIsInAdditionalBuffer) {
*pos -= mOriginalBuffer.size();
}
// Code point table is not used for dynamic format.
*outCodePointCount = ByteArrayUtils::readStringAndAdvancePosition(
getBuffer(readingPosIsInAdditionalBuffer), maxCodePointCount,
nullptr /* codePointTable */, outCodePoints, pos);
if (readingPosIsInAdditionalBuffer) {
*pos += mOriginalBuffer.size();
}
}
bool BufferWithExtendableBuffer::extend(const int size) {
return checkAndPrepareWriting(getTailPosition(), size);
}
bool BufferWithExtendableBuffer::writeUint(const uint32_t data, const int size, const int pos) {
int writingPos = pos;
return writeUintAndAdvancePosition(data, size, &writingPos);
}
bool BufferWithExtendableBuffer::writeUintAndAdvancePosition(const uint32_t data, const int size,
int *const pos) {
if (!(size >= 1 && size <= 4)) {
AKLOGI("writeUintAndAdvancePosition() is called with invalid size: %d", size);
ASSERT(false);
return false;
}
if (!checkAndPrepareWriting(*pos, size)) {
return false;
}
const bool usesAdditionalBuffer = isInAdditionalBuffer(*pos);
uint8_t *const buffer =
usesAdditionalBuffer ? mAdditionalBuffer.data() : mOriginalBuffer.data();
if (usesAdditionalBuffer) {
*pos -= mOriginalBuffer.size();
}
ByteArrayUtils::writeUintAndAdvancePosition(buffer, data, size, pos);
if (usesAdditionalBuffer) {
*pos += mOriginalBuffer.size();
}
return true;
}
bool BufferWithExtendableBuffer::writeCodePointsAndAdvancePosition(const int *const codePoints,
const int codePointCount, const bool writesTerminator, int *const pos) {
const size_t size = ByteArrayUtils::calculateRequiredByteCountToStoreCodePoints(
codePoints, codePointCount, writesTerminator);
if (!checkAndPrepareWriting(*pos, size)) {
return false;
}
const bool usesAdditionalBuffer = isInAdditionalBuffer(*pos);
uint8_t *const buffer =
usesAdditionalBuffer ? mAdditionalBuffer.data() : mOriginalBuffer.data();
if (usesAdditionalBuffer) {
*pos -= mOriginalBuffer.size();
}
ByteArrayUtils::writeCodePointsAndAdvancePosition(buffer, codePoints, codePointCount,
writesTerminator, pos);
if (usesAdditionalBuffer) {
*pos += mOriginalBuffer.size();
}
return true;
}
bool BufferWithExtendableBuffer::extendBuffer(const size_t size) {
const size_t extendSize = std::max(EXTEND_ADDITIONAL_BUFFER_SIZE_STEP, size);
const size_t sizeAfterExtending =
std::min(mAdditionalBuffer.size() + extendSize, mMaxAdditionalBufferSize);
if (sizeAfterExtending < mAdditionalBuffer.size() + size) {
return false;
}
mAdditionalBuffer.resize(sizeAfterExtending);
return true;
}
bool BufferWithExtendableBuffer::checkAndPrepareWriting(const int pos, const int size) {
if (pos < 0 || size < 0) {
// Invalid position or size.
return false;
}
const size_t totalRequiredSize = static_cast<size_t>(pos + size);
if (!isInAdditionalBuffer(pos)) {
// Here don't need to care about the additional buffer.
if (mOriginalBuffer.size() < totalRequiredSize) {
// Violate the boundary.
return false;
}
// The buffer has sufficient capacity.
return true;
}
// Hereafter, pos is in the additional buffer.
const size_t tailPosition = static_cast<size_t>(getTailPosition());
if (totalRequiredSize <= tailPosition) {
// The buffer has sufficient capacity.
return true;
}
if (static_cast<size_t>(pos) != tailPosition) {
// The additional buffer must be extended from the tail position.
return false;
}
const size_t extendSize = totalRequiredSize -
std::min(mAdditionalBuffer.size() + mOriginalBuffer.size(), totalRequiredSize);
if (extendSize > 0 && !extendBuffer(extendSize)) {
// Failed to extend the buffer.
return false;
}
mUsedAdditionalBufferSize += size;
return true;
}
bool BufferWithExtendableBuffer::copy(const BufferWithExtendableBuffer *const sourceBuffer) {
int copyingPos = 0;
const int tailPos = sourceBuffer->getTailPosition();
const int maxDataChunkSize = sizeof(uint32_t);
while (copyingPos < tailPos) {
const int remainingSize = tailPos - copyingPos;
const int copyingSize = (remainingSize >= maxDataChunkSize) ?
maxDataChunkSize : remainingSize;
const uint32_t data = sourceBuffer->readUint(copyingSize, copyingPos);
if (!writeUint(data, copyingSize, copyingPos)) {
return false;
}
copyingPos += copyingSize;
}
return true;
}
}
