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import java.io.BufferedWriter;
import java.io.FileNotFoundException;
import java.io.FileWriter;
import java.io.IOException;
import java.io.RandomAccessFile;
public class LRUBuffer {
private int blockSize = 0;
private int cacheHit = 0;
private int cacheMiss = 0;
private int diskReads = 0;
private int diskWrites = 0;
private String dataFile;
private String statFile;
private BufferBlock bufferHead;
private RandomAccessFile file;
public LRUBuffer(String datafile, String statfile, int size, int blocksize) {
this.dataFile = datafile;
this.statFile = statfile;
this.blockSize = blocksize;
// Allocates a new doubly linked list of BufferBlocks
// The buffer will have at least one block
bufferHead = new BufferBlock(blockSize);
BufferBlock cur = bufferHead;
for (int i = 0; i < size-1; i++) {
BufferBlock newBlock = new BufferBlock(blockSize);
cur.setNext(newBlock);
newBlock.setPrev(cur);
cur = newBlock;
}
// Open access to the datafile
try {
file = new RandomAccessFile(dataFile, "rw");
file.setLength(0);
} catch (FileNotFoundException e) {
e.printStackTrace();
} catch (IOException e) {
e.printStackTrace();
}
}
/** Recursive function to copy length number of bytes from file at startAddress
* to offset position in out
*
* @param out Destination array to copy bytes to
* @param offset Offset of position to write to in the destination array
* @param startAddress Starting address on disk to copy bytes from
* @param length Number of bytes to copy to the destination array
* @return
*/
public boolean getBytes(byte[] out, int offset, long startAddress, int length) {
BufferBlock cur = bufferHead;
// If the requested length doesnt extends to the next block
if (startAddress % blockSize + length < blockSize) {
// Check if address is already in a buffer block
while (cur != null && cur.getStartAddress() != -1) {
if (startAddress >= cur.getStartAddress() && startAddress < cur.getStartAddress() + blockSize) {
// Address is in block
cacheHit++;
// Bring current block to front of list
bringToFront(cur);
// Get data
cur.getBytes(out, offset, (int)startAddress % blockSize, length);
return true;
}
cur = cur.getNext();
}
// Address is not in buffer, read new block from disk
cacheMiss++;
cur = readFromDisk(startAddress);
insertToFront(cur);
// Get data from block
cur.getBytes(out, offset, (int)startAddress % blockSize, length);
return true;
// If the requested length extends to the next block
} else {
int bytesToRead = 0;
// Check if address is already in a buffer block
while (cur != null && cur.getStartAddress() != -1) {
if (startAddress >= cur.getStartAddress() && startAddress < cur.getStartAddress() + blockSize) {
// Address is in block
cacheHit++;
// Bring current block to front of list
bringToFront(cur);
// Read in from address to end of block
bytesToRead = blockSize - (int)startAddress % blockSize;
cur.getBytes(out, offset, (int)startAddress % blockSize, bytesToRead);
offset += bytesToRead;
// Get data from the next consecutive block
getBytes(out, offset, startAddress + bytesToRead, length - bytesToRead);
return true;
}
cur = cur.getNext();
}
// Address is not in buffer, read new block from disk
cacheMiss++;
cur = readFromDisk(startAddress);
insertToFront(cur);
// Read in from address to end of block
bytesToRead = blockSize - (int)startAddress % blockSize;
cur.getBytes(out, offset, (int)startAddress % blockSize, bytesToRead);
offset += bytesToRead;
// Get data from the next consecutive block
getBytes(out, offset, startAddress + bytesToRead, length - bytesToRead);
return true;
}
}
/** Recursive function to copy length number of bytes from in to file at startAddress
*
* @param in Input array to copy bytes from
* @param startAddress Starting address on disk to copy bytes to
* @param length Number of bytes to copy from in to disk
* @return
*/
public boolean putBytes(byte[] in, int offset, long startAddress, int length) {
BufferBlock cur = bufferHead;
// If the requested length doesnt extends to the next block
if (startAddress % blockSize + length <= blockSize) {
// Check if address is already in a buffer block
while (cur != null && cur.getStartAddress() != -1) {
if (startAddress >= cur.getStartAddress() && startAddress < cur.getStartAddress() + blockSize) {
// Address is in block
cacheHit++;
// Bring current block to front of list
bringToFront(cur);
// Put data into block
cur.setBytes(in, offset, (int)startAddress % blockSize, length);
cur.setDirtyBit(true);
return true;
}
cur = cur.getNext();
}
// Address is not in buffer, read new block from disk
cacheMiss++;
cur = readFromDisk(startAddress);
insertToFront(cur);
// Put data into block
cur.setBytes(in, offset, (int)startAddress % blockSize, length);
cur.setDirtyBit(true);
return true;
// If the requested length extends to the next block
} else {
int bytesToWrite = 0;
// Check if address is already in a buffer block
while (cur != null && cur.getStartAddress() != -1) {
if (startAddress >= cur.getStartAddress() && startAddress < cur.getStartAddress() + blockSize) {
// Address is in block
cacheHit++;
// Bring current block to front of list
bringToFront(cur);
// Put in data until end of block
bytesToWrite = blockSize - (int)startAddress % blockSize;
cur.setBytes(in, offset, (int)startAddress % blockSize, bytesToWrite);
cur.setDirtyBit(true);
startAddress += bytesToWrite;
// Put remaining data into the next consecutive block
putBytes(in, offset + bytesToWrite, startAddress, length - bytesToWrite);
return true;
}
cur = cur.getNext();
}
// Address is not in buffer, read new block from disk
cacheMiss++;
cur = readFromDisk(startAddress);
insertToFront(cur);
// Put in data until end of block
bytesToWrite = blockSize - (int)startAddress % blockSize;
cur.setBytes(in, offset, (int)startAddress % blockSize, bytesToWrite);
cur.setDirtyBit(true);
startAddress += bytesToWrite;
// Put remaining data into the next consecutive block
putBytes(in, offset + bytesToWrite, startAddress, length - bytesToWrite);
return true;
}
}
/** Brings a block currently in the list to the front of the list */
private void bringToFront(BufferBlock block) {
// If block is already in front, return
if (block == bufferHead)
return;
if (block.getPrev() != null)
block.getPrev().setNext(block.getNext());
if (block.getNext() != null)
block.getNext().setPrev(block.getPrev());
block.setPrev(null);
bufferHead.setPrev(block);
block.setNext(bufferHead);
bufferHead = block;
}
/** Inserts a new block into the front of the list */
private void insertToFront(BufferBlock block) {
// Set head as current block
block.setPrev(null);
bufferHead.setPrev(block);
block.setNext(bufferHead);
bufferHead = block;
// Write last block in list to disk if dirty bit is set
// Last block is also removed
BufferBlock cur = bufferHead;
while (cur.getNext() != null) {
cur = cur.getNext();
}
cur.getPrev().setNext(null);
if (cur.isDirtyBit()) {
writeToDisk(cur);
}
}
/** Reads a new block from disk given an address */
private BufferBlock readFromDisk(long address) {
diskReads++;
byte[] data = new byte[blockSize];
long offset = address / blockSize;
offset = offset * blockSize;
try {
file.seek(offset);
file.read(data);
} catch (IOException e) {
e.printStackTrace();
}
// Pass read block into a new block
BufferBlock newBlock = new BufferBlock(blockSize);
newBlock.setBytes(data, 0, 0, blockSize);
newBlock.setStartAddress(offset);
return newBlock;
}
/** Writes the specified block to disk */
private void writeToDisk(BufferBlock block) {
diskWrites++;
byte[] data = new byte[blockSize];
block.getBytes(data, 0, 0, blockSize);
try {
file.seek(block.getStartAddress());
file.write(data);
} catch (IOException e) {
e.printStackTrace();
}
}
/** Flush the buffer by writing all blocks in buffer to disk */
public void flushBuffer() {
BufferBlock cur = bufferHead;
while (cur != null) {
if (cur.isDirtyBit()) {
writeToDisk(cur);
}
cur = cur.getNext();
}
try {
file.close();
} catch (IOException e) {
e.printStackTrace();
}
}
/** Write stats to stat file */
public void writeStats(long time) {
try {
BufferedWriter out = new BufferedWriter(new FileWriter(statFile, true));
StringBuilder str = new StringBuilder();
str.append("Datafile: " + dataFile + " | ");
str.append("Cache Hits: " + cacheHit + " | ");
str.append("Cache Misses: " + cacheMiss + " | ");
str.append("Disk Reads: " + diskReads + " | ");
str.append("Disk Writes: " + diskWrites + " | ");
str.append("Time to Sort: " + time + "\n");
out.write(str.toString());
out.close();
} catch (IOException e) {
e.printStackTrace();
}
}
public void printBlockIDs() {
BufferBlock cur = bufferHead;
System.out.print("Buffer Pool Blocks: ");
while (cur != null && cur.getStartAddress() != -1) {
// System.out.print(cur.getStartAddress() + " ; ");
System.out.print(cur.getStartAddress() / blockSize + " ; ");
cur = cur.getNext();
}
System.out.print("\n");
}
}