RowInputBinary.java
/* Copyright (c) 2001-2024, The HSQL Development Group
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package org.hsqldb.rowio;
import java.io.EOFException;
import java.io.IOException;
import java.math.BigDecimal;
import java.math.BigInteger;
import org.hsqldb.error.Error;
import org.hsqldb.error.ErrorCode;
import org.hsqldb.lib.StringConverter;
import org.hsqldb.map.ValuePool;
import org.hsqldb.types.BinaryData;
import org.hsqldb.types.BlobData;
import org.hsqldb.types.BlobDataID;
import org.hsqldb.types.ClobData;
import org.hsqldb.types.ClobDataID;
import org.hsqldb.types.IntervalMonthData;
import org.hsqldb.types.IntervalSecondData;
import org.hsqldb.types.IntervalType;
import org.hsqldb.types.JavaObjectData;
import org.hsqldb.types.TimeData;
import org.hsqldb.types.TimestampData;
import org.hsqldb.types.Type;
import org.hsqldb.types.Types;
/**
* Provides methods for reading the data for a row from a
* byte array. The format of data is that used for storage of cached
* tables by v.1.6.x databases, apart from strings.
*
* @author Bob Preston (sqlbob@users dot sourceforge.net)
* @author Fred Toussi (fredt@users dot sourceforge.net)
* @version 2.5.0
* @since 1.7.0
*/
public class RowInputBinary extends RowInputBase implements RowInputInterface {
public boolean ignoreDataErrors;
private RowOutputBinary out;
public RowInputBinary() {
this(64);
}
public RowInputBinary(int size) {
super(size);
}
public RowInputBinary(byte[] buf) {
super(buf);
}
/**
* uses the byte[] buffer from out. At each reset, the buffer is set
* to the current one for out.
*/
public RowInputBinary(RowOutputBinary out) {
super(out.getBuffer());
this.out = out;
}
public void readFully(byte[] b) {
try {
super.readFully(b);
} catch (IOException e) {
throw Error.error(
e,
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary" + ' ' + getFilePosition());
}
}
public long readLong() {
try {
return super.readLong();
} catch (IOException e) {
throw Error.error(
e,
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary" + ' ' + getFilePosition());
}
}
public int readInt() {
try {
return super.readInt();
} catch (IOException e) {
throw Error.error(
e,
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary" + ' ' + getFilePosition());
}
}
public short readShort() {
try {
return super.readShort();
} catch (IOException e) {
throw Error.error(
e,
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary" + ' ' + getFilePosition());
}
}
public char readChar() {
try {
return super.readChar();
} catch (IOException e) {
throw Error.error(
e,
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary" + ' ' + getFilePosition());
}
}
public byte readByte() {
try {
return super.readByte();
} catch (IOException e) {
throw Error.error(
e,
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary" + ' ' + getFilePosition());
}
}
public boolean readBoolean() {
try {
return super.readBoolean();
} catch (IOException e) {
throw Error.error(
e,
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary" + ' ' + getFilePosition());
}
}
public int readType() {
return readShort();
}
public String readString() {
try {
int length = readInt();
if (length < 0) {
throw Error.error(
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary - negative length");
}
String s = StringConverter.readUTF(buffer, pos, length);
s = ValuePool.getString(s);
pos += length;
return s;
} catch (IOException e) {
throw Error.error(
e,
ErrorCode.GENERAL_IO_ERROR,
"RowInputBinary" + ' ' + getFilePosition());
}
}
public boolean readNull() {
int b = readByte();
return b == 0;
}
protected String readChar(Type type) {
return readString();
}
protected Integer readSmallint() {
return ValuePool.getInt(readShort());
}
protected Integer readInteger() {
return ValuePool.getInt(readInt());
}
protected Long readBigint() {
return ValuePool.getLong(readLong());
}
protected Double readReal() {
return ValuePool.getDouble(readLong());
}
protected BigDecimal readDecimal(Type type) {
byte[] bytes = readByteArray();
int scale = readInt();
BigInteger bigint = new BigInteger(bytes);
return ValuePool.getBigDecimal(new BigDecimal(bigint, scale));
}
protected Boolean readBoole() {
return readBoolean()
? Boolean.TRUE
: Boolean.FALSE;
}
protected TimeData readTime(Type type) {
if (type.typeCode == Types.SQL_TIME) {
return new TimeData(readInt(), readInt(), 0);
} else {
return new TimeData(readInt(), readInt(), readInt());
}
}
protected TimestampData readDate(Type type) {
long date = readLong();
return new TimestampData(date);
}
protected TimestampData readTimestamp(Type type) {
if (type.typeCode == Types.SQL_TIMESTAMP) {
return new TimestampData(readLong(), readInt());
} else {
return new TimestampData(readLong(), readInt(), readInt());
}
}
protected IntervalMonthData readYearMonthInterval(Type type) {
long months = readLong();
return new IntervalMonthData(months, (IntervalType) type);
}
protected IntervalSecondData readDaySecondInterval(Type type) {
long seconds = readLong();
int nanos = readInt();
return new IntervalSecondData(seconds, nanos, (IntervalType) type);
}
protected Object readOther() {
return new JavaObjectData(readByteArray());
}
protected BinaryData readBit() {
int length = readInt();
byte[] b = new byte[(length + 7) / 8];
readFully(b);
return BinaryData.getBitData(b, length);
}
protected BinaryData readUUID() {
return new BinaryData(readByteArray(), false);
}
protected BinaryData readBinary() {
return new BinaryData(readByteArray(), false);
}
protected ClobData readClob() {
long id = readLong();
return new ClobDataID(id);
}
protected BlobData readBlob() {
long id = readLong();
return new BlobDataID(id);
}
protected Object[] readArray(Type type) {
type = type.collectionBaseType();
int size = readInt();
Object[] data = new Object[size];
for (int i = 0; i < size; i++) {
data[i] = readData(type);
}
return data;
}
/**
* Nulls in array are treated as 0
*/
public int[] readIntArray() {
int size = readInt();
int[] data = new int[size];
for (int i = 0; i < size; i++) {
if (!readNull()) {
data[i] = readInt();
}
}
return data;
}
public Object[] readData(Type[] colTypes) {
if (ignoreDataErrors) {
return new Object[colTypes.length];
}
return super.readData(colTypes);
}
// helper methods
public byte[] readByteArray() {
int length = readInt();
byte[] b = new byte[length];
readFully(b);
return b;
}
public byte[] readByteArray16() {
byte[] b = new byte[16];
readFully(b);
return b;
}
public char[] readCharArray() throws IOException {
int length = readInt();
char[] c = new char[length];
if (count - pos < c.length) {
pos = count;
throw new EOFException();
}
for (int i = 0; i < c.length; i++) {
int ch1 = buffer[pos++] & 0xff;
int ch2 = buffer[pos++] & 0xff;
c[i] = (char) ((ch1 << 8) + (ch2));
}
return c;
}
/**
* Used to reset the row, ready for Result data to be written into the
* byte[] buffer by an external routine.
*
*/
public void resetRow(int rowsize) {
if (out != null) {
out.reset(rowsize);
buffer = out.getBuffer();
}
super.reset();
}
/**
* Used to reset the row, ready for a new db row to be written into the
* byte[] buffer by an external routine.
*
*/
public void resetRow(long filepos, int rowsize) {
if (out != null) {
out.reset(rowsize);
buffer = out.getBuffer();
}
super.resetRow(filepos, rowsize);
}
}