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// :tabSize=2:indentSize=2:noTabs=false:folding=explicit:collapseFolds=1:
import java.lang.reflect.Array ;
/**
* Utility class to deal with arrays
*/
public class ArrayWrapper extends RJavaArrayIterator {
/**
* is this array rectangular
*/
private boolean isRect ;
/**
* The type name of the objects stored
*/
private String typeName ;
/**
* true if the array stores primitive types
*/
private boolean primitive ;
private int length ;
/**
* Constructor
*
* @param array the array to check
* @throws NotAnArrayException if array is not an array
*/
public ArrayWrapper(Object array) throws NotAnArrayException {
super( RJavaArrayTools.getDimensions(array) );
this.array = array ;
typeName = RJavaArrayTools.getObjectTypeName(array );
primitive = RJavaArrayTools.isPrimitiveTypeName( typeName ) ;
if( dimensions.length == 1){
isRect = true ;
} else{
isRect = isRectangular_( array, 0 );
}
// reset the dimensions if the array is not rectangular
if( !isRect ){
dimensions = null ;
length = -1;
} else{
length = 1;
for( int i=0; i<dimensions.length; i++) {
length *= dimensions[i] ;
}
}
}
// making java < 1.5 happy
public ArrayWrapper(int x) throws NotAnArrayException { throw new NotAnArrayException("primitive type") ; }
public ArrayWrapper(boolean x) throws NotAnArrayException { throw new NotAnArrayException("primitive type") ; }
public ArrayWrapper(byte x) throws NotAnArrayException { throw new NotAnArrayException("primitive type") ; }
public ArrayWrapper(long x) throws NotAnArrayException { throw new NotAnArrayException("primitive type") ; }
public ArrayWrapper(short x) throws NotAnArrayException { throw new NotAnArrayException("primitive type") ; }
public ArrayWrapper(double x) throws NotAnArrayException { throw new NotAnArrayException("primitive type") ; }
public ArrayWrapper(char x) throws NotAnArrayException { throw new NotAnArrayException("primitive type") ; }
public ArrayWrapper(float x) throws NotAnArrayException { throw new NotAnArrayException("primitive type") ; }
/**
* @return true if the array is rectangular
*/
public boolean isRectangular( ){
return isRect ;
}
/**
* Recursively check all dimensions to see if an array is rectangular
*/
private boolean isRectangular_(Object o, int depth){
if( depth == dimensions.length ) return true ;
int n = Array.getLength(o) ;
if( n != dimensions[depth] ) return false ;
for( int i=0; i<n; i++){
if( !isRectangular_(Array.get(o, i), depth+1) ){
return false;
}
}
return true ;
}
/**
* @return the type name of the objects stored in the wrapped array
*/
public String getObjectTypeName(){
return typeName;
}
/**
* @return true if the array contains java primitive types
*/
public boolean isPrimitive(){
return primitive ;
}
// {{{ flat_* methods
// {{{ flat_int
/**
* Flattens the array into a single dimensionned int array
*/
public int[] flat_int() throws PrimitiveArrayException,FlatException {
if( ! "I".equals(typeName) ) throw new PrimitiveArrayException("int");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (int[])array ;
} else{
int[] payload = new int[length] ;
int k;
while( hasNext() ){
int[] current = (int[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// {{{ flat_boolean
/**
* Flattens the array into a single dimensionned boolean array
*
*/
public boolean[] flat_boolean() throws PrimitiveArrayException,FlatException {
if( ! "Z".equals(typeName) ) throw new PrimitiveArrayException("boolean");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (boolean[])array ;
} else{
boolean[] payload = new boolean[length] ;
int k;
while( hasNext() ){
boolean[] current = (boolean[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// {{{ flat_byte
/**
* Flattens the array into a single dimensionned byte array
*
*/
public byte[] flat_byte() throws PrimitiveArrayException,FlatException {
if( ! "B".equals(typeName) ) throw new PrimitiveArrayException("byte");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (byte[])array ;
} else{
byte[] payload = new byte[length] ;
int k;
while( hasNext() ){
byte[] current = (byte[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// {{{ flat_long
/**
* Flattens the array into a single dimensionned long array
*
*/
public long[] flat_long() throws PrimitiveArrayException,FlatException {
if( ! "J".equals(typeName) ) throw new PrimitiveArrayException("long");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (long[])array ;
} else{
long[] payload = new long[length] ;
int k;
while( hasNext() ){
long[] current = (long[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// {{{ flat_short
/**
* Flattens the array into a single dimensionned short array
*
*/
public short[] flat_short() throws PrimitiveArrayException,FlatException {
if( ! "S".equals(typeName) ) throw new PrimitiveArrayException("short");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (short[])array ;
} else{
short[] payload = new short[length] ;
int k;
while( hasNext() ){
short[] current = (short[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// {{{ flat_double
/**
* Flattens the array into a single dimensionned double array
*
*/
public double[] flat_double() throws PrimitiveArrayException,FlatException {
if( ! "D".equals(typeName) ) throw new PrimitiveArrayException("double");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (double[])array ;
} else{
double[] payload= new double[length] ;
int k;
while( hasNext() ){
double[] current = (double[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// {{{ flat_char
/**
* Flattens the array into a single dimensionned double array
*
*/
public char[] flat_char() throws PrimitiveArrayException,FlatException {
if( ! "C".equals(typeName) ) throw new PrimitiveArrayException("char");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (char[])array ;
} else{
char[] payload = new char[length] ;
int k;
while( hasNext() ){
char[] current = (char[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// {{{ flat_float
/**
* Flattens the array into a single dimensionned float array
*
*/
public float[] flat_float() throws PrimitiveArrayException,FlatException {
if( ! "F".equals(typeName) ) throw new PrimitiveArrayException("float");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (float[])array ;
} else{
float[] payload = new float[length] ;
int k;
while( hasNext() ){
float[] current = (float[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// {{{ flat_Object
public Object[] flat_Object() throws FlatException, ObjectArrayException {
if( isPrimitive() ) throw new ObjectArrayException( typeName) ;
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (Object[])array ;
} else{
ClassLoader loader = array.getClass().getClassLoader() ;
Class type = Object.class;
try{
type = Class.forName( typeName, true, array.getClass().getClassLoader() );
} catch( ClassNotFoundException e){}
Object[] payload = (Object[])Array.newInstance( type, length ) ;
int k;
while( hasNext() ){
Object[] current = (Object[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = type.cast( current[j] );
}
}
return payload ;
}
}
// }}}
// {{{ flat_String
/**
* Flattens the array into a single dimensionned String array
*
*/
// this is technically not required as this can be handled
// by flat_Object but this is slightly more efficient so ...
public String[] flat_String() throws PrimitiveArrayException,FlatException {
if( ! "java.lang.String".equals(typeName) ) throw new PrimitiveArrayException("java.lang.String");
if( !isRect ) throw new FlatException();
if( dimensions.length == 1 ){
return (String[])array ;
} else{
String[] payload = new String[length] ;
int k;
while( hasNext() ){
String[] current = (String[])next() ;
k = start ;
for( int j=0; j<current.length; j++, k+=increment){
payload[k] = current[j] ;
}
}
return payload ;
}
}
// }}}
// }}}
}
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