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TDB is a storage subsystem for Jena and ARQ, it is a native triple store providing persistent storage of triples/quads.
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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.
*/
package org.apache.jena.tdb.lib;
import static java.lang.String.format ;
import java.util.Arrays ;
import java.util.List ;
import org.apache.jena.atlas.AtlasException ;
import org.apache.jena.atlas.lib.ListUtils ;
import org.apache.jena.atlas.lib.StrUtils ;
import org.apache.jena.atlas.lib.tuple.Tuple ;
import org.apache.jena.atlas.lib.tuple.TupleFactory ;
/** General descriptor of a reordering (mapping) of columns in tuples to columns in indexes,
* for example, from triples to triple index order.
*
* Naming: map is convert to the reordered form, fetch is get back.
*/
public class ColumnMap
{
// Map from tuple order to index order
// So SPO->POS is (0->2, 1->0, 2->1)
// i.e. the location of the element after mapping.
private int[] insertOrder ;
// The mapping from index to tuple order
// For POS->SPO, is (0->1, 1->2, 2->0)
// i.e. the location to fetch the mapped element from.
private int[] fetchOrder ;
private String label ;
/** Construct a column mapping that maps the input (one col, one char) to the output */
public ColumnMap(String input, String output)
{
this(input+"->"+output, compileMapping(input, output)) ;
}
public ColumnMap(String label, List input, List output)
{
this(label, compileMapping(input, output)) ;
}
public ColumnMap(String label, T[] input, T[] output)
{
this(label, compileMapping(input, output)) ;
}
/** Construct a column map - the elements are the
* mappings of a tuple originally in the order 0,1,2,...
* so SPO->POS is 2,0,1 (SPO->POS so S->2, P->0, O->1)
* and not 1,2,0 (which is the extraction mapping).
* The label is just a lable and is not interpretted.
*/
public ColumnMap(String label, int...elements)
{
this.label = label ;
this.insertOrder = new int[elements.length] ;
System.arraycopy(elements, 0, elements, 0, elements.length) ;
Arrays.fill(insertOrder, -1) ;
this.fetchOrder = new int[elements.length] ;
Arrays.fill(fetchOrder, -1) ;
for ( int i = 0 ; i < elements.length ; i++ )
{
int x = elements[i] ;
if ( x < 0 || x >= elements.length)
throw new IllegalArgumentException("Out of range: "+x) ;
// Checking
if ( insertOrder[i] != -1 || fetchOrder[x] != -1 )
throw new IllegalArgumentException("Inconsistent: "+ListUtils.str(elements)) ;
insertOrder[i] = x ;
fetchOrder[x] = i ;
}
}
/** Length of mapping */
public int length() { return fetchOrder.length ; }
/** Apply to an unmapped tuple to get the i'th slot after mapping : SPO->POS : 0'th slot is P from SPO */
public T fetchSlot(int idx, Tuple tuple)
{
idx = fetchOrder[idx] ; // Apply the reverse mapping as we are doing zero is P, so it's an unmap.
return tuple.get(idx) ;
}
/** Apply to an unmapped tuple to get the i'th slot after mapping : SPO->POS : 0'th slot is P from SPO */
public T fetchSlot(int idx, T[] tuple)
{
idx = fetchOrder[idx] ; // Apply the reverse mapping as we are doing zero is P, so it's an unmap.
return tuple[idx] ;
}
/** Apply to a mapped tuple to get the i'th slot as it appears after mapping : SPO->POS : 0'th slot is S from POS */
public T mapSlot(int idx, Tuple tuple)
{
idx = insertOrder[idx] ;
return tuple.get(idx) ;
}
/** Apply to a mapped tuple to get the i'th slot as it appears after mapping : SPO->POS : 0'th slot is S from POS */
public T mapSlot(int idx, T[] tuple)
{
idx = insertOrder[idx] ; // Yes - it's the insert location we want to access
return tuple[idx] ;
}
/** Get the index of the i'th slot as it appears after mapping : SPO->POS : 0'th slot is S from POS so 2->0 */
public int mapSlotIdx(int idx)
{
return insertOrder[idx] ; // Yes - it's the insert location we want to access
}
/** Get the index of the i'th slot as it appears from a mapping : for SPO->POS : 0'th slot is P so 1->0 */
public int fetchSlotIdx(int idx)
{
return fetchOrder[idx] ; // Yes - it's the insert location we want to access
}
/** Apply to an unmapped tuple to get a tuple with the column mapping applied */
public Tuple map(Tuple src)
{
return map(src, insertOrder) ;
}
/** Apply to a mapped tuple to get a tuple with the column mapping reverse-applied */
public Tuple unmap(Tuple src)
{
return map(src, fetchOrder) ;
}
private Tuple map(Tuple src, int[] map)
{
@SuppressWarnings("unchecked")
T[] elts = (T[])new Object[src.len()] ;
for ( int i = 0 ; i < src.len() ; i++ )
{
int j = map[i] ;
elts[j] = src.get(i) ;
}
return TupleFactory.asTuple(elts) ;
}
/** Compile a mapping encoded as single characters e.g. "SPO", "POS" */
static int[] compileMapping(String domain, String range)
{
List input = StrUtils.toCharList(domain) ;
List output = StrUtils.toCharList(range) ;
return compileMapping(input, output) ;
}
/** Compile a mapping, encoded two list, the domain and range of the mapping function */
static int[] compileMapping(T[] domain, T[] range)
{
return compileMapping(Arrays.asList(domain), Arrays.asList(range)) ;
}
/** Compile a mapping */
static int[] compileMapping(List domain, Listrange)
{
if ( domain.size() != range.size() )
throw new AtlasException("Bad mapping: lengths not the same: "+domain+" -> "+range) ;
int[] cols = new int[domain.size()] ;
boolean[] mapped = new boolean[domain.size()] ;
//Arrays.fill(mapped, false) ;
for ( int i = 0 ; i < domain.size() ; i++ )
{
T input = domain.get(i) ;
int j = range.indexOf(input) ;
if ( j < 0 )
throw new AtlasException("Bad mapping: missing mapping: "+domain+" -> "+range) ;
if ( mapped[j] )
throw new AtlasException("Bad mapping: duplicate: "+domain+" -> "+range) ;
cols[i] = j ;
mapped[j] = true ;
}
return cols ;
}
@Override
public String toString()
{
//return label ;
return format("%s:%s%s", label, mapStr(insertOrder), mapStr(fetchOrder)) ;
}
private Object mapStr(int[] map)
{
StringBuilder buff = new StringBuilder() ;
String sep = "{" ;
for ( int i = 0 ; i < map.length ; i++ )
{
buff.append(sep) ;
sep = ", " ;
buff.append(format("%d->%d", i, map[i])) ;
}
buff.append("}") ;
return buff.toString() ;
}
public String getLabel()
{
return label ;
}
/** Reorder the letters of a string by the same rules as this column map (forward, map direction)*/
public String mapName(String word)
{
return mapString(word, insertOrder) ;
}
/** Reorder the letters of a string by the same rules as this column map (backward, fetch direction) */
public String unmapName(String word)
{
return mapString(word, fetchOrder) ;
}
// Map is get from i and put to j
private String mapString(String src, int[] map)
{
char[] chars = new char[src.length()] ;
for ( int i = 0 ; i < src.length() ; i++ )
{
int j = map[i] ;
chars[j] = src.charAt(i) ;
}
return new String(chars) ;
}
}