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/*
 * 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.calcite.util;

import org.apache.calcite.util.mapping.IntPair;
import org.apache.calcite.util.mapping.Mapping;
import org.apache.calcite.util.mapping.MappingType;
import org.apache.calcite.util.mapping.Mappings;

import java.util.Arrays;
import java.util.Iterator;

/**
 * Represents a mapping which reorders elements in an array.
 */
public class Permutation implements Mapping, Mappings.TargetMapping {
  //~ Instance fields --------------------------------------------------------

  private int[] targets;
  private int[] sources;

  //~ Constructors -----------------------------------------------------------

  /**
   * Creates a permutation of a given size.
   *
   * 

It is initialized to the identity permutation, such as "[0, 1, 2, 3]". * * @param size Number of elements in the permutation */ public Permutation(int size) { targets = new int[size]; sources = new int[size]; // Initialize to identity. identity(); } /** * Creates a permutation from an array. * * @param targets Array of targets * @throws IllegalArgumentException if elements of array are not unique * @throws ArrayIndexOutOfBoundsException if elements of array are not * between 0 through targets.length - 1 * inclusive */ public Permutation(int[] targets) { this.targets = targets.clone(); this.sources = new int[targets.length]; Arrays.fill(sources, -1); for (int i = 0; i < targets.length; i++) { int target = targets[i]; if (target < 0 || target >= sources.length) { throw new IllegalArgumentException("target out of range"); } if (sources[target] != -1) { throw new IllegalArgumentException( "more than one permutation element maps to position " + target); } sources[target] = i; } assert isValid(true); } /** * Creates a permutation. Arrays are not copied, and are assumed to be valid * permutations. */ private Permutation(int[] targets, int[] sources) { this.targets = targets; this.sources = sources; assert isValid(true); } //~ Methods ---------------------------------------------------------------- public Object clone() { return new Permutation( targets.clone(), sources.clone()); } /** * Initializes this permutation to the identity permutation. */ public void identity() { for (int i = 0; i < targets.length; i++) { targets[i] = sources[i] = i; } } /** * Returns the number of elements in this permutation. */ public final int size() { return targets.length; } public void clear() { throw new UnsupportedOperationException( "Cannot clear: permutation must always contain one mapping per element"); } /** * Returns a string representation of this permutation. * *

For example, the mapping * *

* * * * * * * * * * * * * * * * * * * * * *
Example mapping
sourcetarget
02
10
21
33
* *

is represented by the string "[2, 0, 1, 3]". */ public String toString() { StringBuilder buf = new StringBuilder(); buf.append("["); for (int i = 0; i < targets.length; i++) { if (i > 0) { buf.append(", "); } buf.append(targets[i]); } buf.append("]"); return buf.toString(); } /** * Maps source position to target position. * *

To preserve the 1:1 nature of the permutation, the previous target of * source becomes the new target of the previous source. * *

For example, given the permutation * *

[3, 2, 0, 1]
* *

suppose we map position 2 to target 1. Position 2 currently has target * 0, and the source of position 1 is position 3. We preserve the permutation * property by mapping the previous source 3 to the previous target 0. The new * permutation is * *

[3, 2, 1, 0].
* *

Another example. Again starting from * *

[3, 2, 0, 1]
* *

suppose we map position 2 to target 3. We map the previous source 0 to * the previous target 0, which gives * *

[0, 2, 3, 1].
* * @param source Source position * @param target Target position * @throws ArrayIndexOutOfBoundsException if source or target is negative or * greater than or equal to the size of * the permuation */ public void set(int source, int target) { set(source, target, false); } /** * Maps source position to target position, automatically resizing if source * or target is out of bounds. * *

To preserve the 1:1 nature of the permutation, the previous target of * source becomes the new target of the previous source. * *

For example, given the permutation * *

[3, 2, 0, 1]
* *

suppose we map position 2 to target 1. Position 2 currently has target * 0, and the source of position 1 is position 3. We preserve the permutation * property by mapping the previous source 3 to the previous target 0. The new * permutation is * *

[3, 2, 1, 0].
* *

Another example. Again starting from * *

[3, 2, 0, 1]
* *

suppose we map position 2 to target 3. We map the previous source 0 to * the previous target 0, which gives * *

[0, 2, 3, 1].
* * @param source Source position * @param target Target position * @param allowResize Whether to resize the permutation if the source or * target is greater than the current capacity * @throws ArrayIndexOutOfBoundsException if source or target is negative, * or greater than or equal to the size * of the permutation, and * allowResize is false */ public void set(int source, int target, boolean allowResize) { final int maxSourceTarget = Math.max(source, target); if (maxSourceTarget >= sources.length) { if (allowResize) { resize(maxSourceTarget + 1); } else { throw new ArrayIndexOutOfBoundsException(maxSourceTarget); } } int prevTarget = targets[source]; assert sources[prevTarget] == source; int prevSource = sources[target]; assert targets[prevSource] == target; setInternal(source, target); // To balance things up, make the previous source reference the // previous target. This ensures that each ordinal occurs precisely // once in the sources array and the targets array. setInternal(prevSource, prevTarget); // For example: // Before: [2, 1, 0, 3] // Now we set(source=1, target=0) // previous target of source (1) was 1, is now 0 // previous source of target (0) was 2, is now 1 // something now has to have target 1 -- use previous source // After: [2, 0, 1, 3] } /** * Inserts into the targets. * *

For example, consider the permutation

* * * * * * * * * * * * * * * * * * * *
Example permutation
source01234
target30421
* *

After applying insertTarget(2) every target 2 or higher is * shifted up one.

* * * * * * * * * * * * * * * * * * * * * *
Mapping after applying insertTarget(2)
source012345
target405312
* *

Note that the array has been extended to accommodate the new target, and * the previously unmapped source 5 is mapped to the unused target slot 2.

* * @param x Ordinal of position to add to target */ public void insertTarget(int x) { assert isValid(true); resize(sources.length + 1); // Shuffle sources up. shuffleUp(sources, x); // Shuffle targets. increment(x, targets); assert isValid(true); } /** * Inserts into the sources. * *

Behavior is analogous to {@link #insertTarget(int)}.

* * @param x Ordinal of position to add to source */ public void insertSource(int x) { assert isValid(true); resize(targets.length + 1); // Shuffle targets up. shuffleUp(targets, x); // Increment sources. increment(x, sources); assert isValid(true); } private void increment(int x, int[] zzz) { final int size = zzz.length; for (int i = 0; i < size; i++) { if (targets[i] == (size - 1)) { targets[i] = x; } else if (targets[i] >= x) { ++targets[i]; } } } private void shuffleUp(final int[] zz, int x) { final int size = zz.length; int t = zz[size - 1]; System.arraycopy(zz, x, zz, x + 1, size - 1 - x); zz[x] = t; } private void resize(int newSize) { assert isValid(true); final int size = targets.length; int[] newTargets = new int[newSize]; System.arraycopy(targets, 0, newTargets, 0, size); int[] newSources = new int[newSize]; System.arraycopy(sources, 0, newSources, 0, size); // Initialize the new elements to the identity mapping. for (int i = size; i < newSize; i++) { newSources[i] = i; newTargets[i] = i; } targets = newTargets; sources = newSources; assert isValid(true); } private void setInternal(int source, int target) { targets[source] = target; sources[target] = source; } /** * Returns the inverse permutation. */ public Permutation inverse() { return new Permutation( sources.clone(), targets.clone()); } /** * Returns whether this is the identity permutation. */ public boolean isIdentity() { for (int i = 0; i < targets.length; i++) { if (targets[i] != i) { return false; } } return true; } /** * Returns the position that source is mapped to. */ public int getTarget(int source) { try { return targets[source]; } catch (ArrayIndexOutOfBoundsException e) { throw new Mappings.NoElementException("invalid source " + source); } } /** * Returns the position which maps to target. */ public int getSource(int target) { try { return sources[target]; } catch (ArrayIndexOutOfBoundsException e) { throw new Mappings.NoElementException("invalid target " + target); } } /** * Checks whether this permutation is valid. * * * * @param fail Whether to assert if invalid * @return Whether valid */ private boolean isValid(boolean fail) { final int size = targets.length; if (sources.length != size) { assert !fail : "different lengths"; return false; } // Every element in sources has corresponding element in targets. int[] occurCount = new int[size]; for (int i = 0; i < size; i++) { int target = targets[i]; if (sources[target] != i) { assert !fail : "source[" + target + "] = " + sources[target] + ", should be " + i; return false; } int source = sources[i]; if (targets[source] != i) { assert !fail : "target[" + source + "] = " + targets[source] + ", should be " + i; return false; } // Every member should occur once. if (occurCount[target] != 0) { assert !fail : "target " + target + " occurs more than once"; return false; } occurCount[target]++; } return true; } public int hashCode() { // not very efficient return toString().hashCode(); } public boolean equals(Object obj) { // not very efficient return (obj instanceof Permutation) && toString().equals(obj.toString()); } // implement Mapping public Iterator iterator() { return new Iterator() { private int i = 0; public boolean hasNext() { return i < targets.length; } public IntPair next() { final IntPair pair = new IntPair(i, targets[i]); ++i; return pair; } public void remove() { throw new UnsupportedOperationException(); } }; } public int getSourceCount() { return targets.length; } public int getTargetCount() { return targets.length; } public MappingType getMappingType() { return MappingType.BIJECTION; } public int getTargetOpt(int source) { return getTarget(source); } public int getSourceOpt(int target) { return getSource(target); } public void setAll(Mapping mapping) { for (IntPair pair : mapping) { set(pair.source, pair.target); } } /** * Returns the product of this Permutation with a given Permutation. Does * not modify this Permutation or permutation. * *

For example, perm.product(perm.inverse()) yields the identity. */ public Permutation product(Permutation permutation) { Permutation product = new Permutation(sources.length); for (int i = 0; i < targets.length; ++i) { product.set(i, permutation.getTarget(targets[i])); } return product; } } // End Permutation.java





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