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This Package contains Microsoft Azure Cosmos SDK (with Reactive Extension Reactor support) for Azure Cosmos DB SQL API

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/*
 * Copyright (C) 2012 The Guava Authors
 *
 * Licensed 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.
 */

/*
 * Portions Copyright (c) Microsoft Corporation
 */

package com.azure.cosmos.implementation.guava25.collect;

import static com.azure.cosmos.implementation.guava25.base.Preconditions.checkArgument;
import static com.azure.cosmos.implementation.guava25.base.Preconditions.checkElementIndex;
import static com.azure.cosmos.implementation.guava25.base.Preconditions.checkNotNull;
import static com.azure.cosmos.implementation.guava25.collect.SortedLists.KeyAbsentBehavior.NEXT_HIGHER;
import static com.azure.cosmos.implementation.guava25.collect.SortedLists.KeyAbsentBehavior.NEXT_LOWER;
import static com.azure.cosmos.implementation.guava25.collect.SortedLists.KeyPresentBehavior.ANY_PRESENT;


import com.azure.cosmos.implementation.guava25.collect.SortedLists.KeyAbsentBehavior;
import com.azure.cosmos.implementation.guava25.collect.SortedLists.KeyPresentBehavior;
import com.azure.cosmos.implementation.guava25.primitives.Ints;
import java.io.Serializable;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.NoSuchElementException;
import java.util.Set;
import java.util.stream.Collector;



/**
 * A {@link RangeSet} whose contents will never change, with many other important properties
 * detailed at {@link ImmutableCollection}.
 *
 * @author Louis Wasserman
 * @since 14.0
 */

@SuppressWarnings("rawtypes")
public final class ImmutableRangeSet extends AbstractRangeSet
    implements Serializable {

  private static final ImmutableRangeSet> EMPTY =
      new ImmutableRangeSet<>(ImmutableList.>>of());

  private static final ImmutableRangeSet> ALL =
      new ImmutableRangeSet<>(ImmutableList.of(Range.>all()));

  /**
   * Returns a {@code Collector} that accumulates the input elements into a new {@code
   * ImmutableRangeSet}. As in {@link Builder}, overlapping ranges are not permitted and adjacent
   * ranges will be merged.
   *
   * @since 23.1
   */

  public static >
      Collector, ?, ImmutableRangeSet> toImmutableRangeSet() {
    return CollectCollectors.toImmutableRangeSet();
  }

  /** Returns an empty immutable range set. */
  @SuppressWarnings({"unchecked", "rawtypes"})
  public static  ImmutableRangeSet of() {
    return (ImmutableRangeSet) EMPTY;
  }

  /**
   * Returns an immutable range set containing the specified single range. If {@link Range#isEmpty()
   * range.isEmpty()}, this is equivalent to {@link ImmutableRangeSet#of()}.
   */
  @SuppressWarnings("rawtypes")
  public static  ImmutableRangeSet of(Range range) {
    checkNotNull(range);
    if (range.isEmpty()) {
      return of();
    } else if (range.equals(Range.all())) {
      return all();
    } else {
      return new ImmutableRangeSet(ImmutableList.of(range));
    }
  }

  /** Returns an immutable range set containing the single range {@link Range#all()}. */
  @SuppressWarnings({"unchecked", "rawtypes"})
  static  ImmutableRangeSet all() {
    return (ImmutableRangeSet) ALL;
  }

  /** Returns an immutable copy of the specified {@code RangeSet}. */
  @SuppressWarnings("rawtypes")
  public static  ImmutableRangeSet copyOf(RangeSet rangeSet) {
    checkNotNull(rangeSet);
    if (rangeSet.isEmpty()) {
      return of();
    } else if (rangeSet.encloses(Range.all())) {
      return all();
    }

    if (rangeSet instanceof ImmutableRangeSet) {
      ImmutableRangeSet immutableRangeSet = (ImmutableRangeSet) rangeSet;
      if (!immutableRangeSet.isPartialView()) {
        return immutableRangeSet;
      }
    }
    return new ImmutableRangeSet(ImmutableList.copyOf(rangeSet.asRanges()));
  }

  /**
   * Returns an {@code ImmutableRangeSet} containing each of the specified disjoint ranges.
   * Overlapping ranges and empty ranges are forbidden, though adjacent ranges are permitted and
   * will be merged.
   *
   * @throws IllegalArgumentException if any ranges overlap or are empty
   * @since 21.0
   */
  public static > ImmutableRangeSet copyOf(Iterable> ranges) {
    return new ImmutableRangeSet.Builder().addAll(ranges).build();
  }

  /**
   * Returns an {@code ImmutableRangeSet} representing the union of the specified ranges.
   *
   * 

This is the smallest {@code RangeSet} which encloses each of the specified ranges. Duplicate * or connected ranges are permitted, and will be coalesced in the result. * * @since 21.0 */ public static > ImmutableRangeSet unionOf(Iterable> ranges) { return copyOf(TreeRangeSet.create(ranges)); } ImmutableRangeSet(ImmutableList> ranges) { this.ranges = ranges; } private ImmutableRangeSet(ImmutableList> ranges, ImmutableRangeSet complement) { this.ranges = ranges; this.complement = complement; } private final transient ImmutableList> ranges; @Override public boolean intersects(Range otherRange) { int ceilingIndex = SortedLists.binarySearch( ranges, Range.lowerBoundFn(), otherRange.lowerBound, Ordering.natural(), ANY_PRESENT, NEXT_HIGHER); if (ceilingIndex < ranges.size() && ranges.get(ceilingIndex).isConnected(otherRange) && !ranges.get(ceilingIndex).intersection(otherRange).isEmpty()) { return true; } return ceilingIndex > 0 && ranges.get(ceilingIndex - 1).isConnected(otherRange) && !ranges.get(ceilingIndex - 1).intersection(otherRange).isEmpty(); } @Override public boolean encloses(Range otherRange) { int index = SortedLists.binarySearch( ranges, Range.lowerBoundFn(), otherRange.lowerBound, Ordering.natural(), ANY_PRESENT, NEXT_LOWER); return index != -1 && ranges.get(index).encloses(otherRange); } @Override public Range rangeContaining(C value) { int index = SortedLists.binarySearch( ranges, Range.lowerBoundFn(), Cut.belowValue(value), Ordering.natural(), ANY_PRESENT, NEXT_LOWER); if (index != -1) { Range range = ranges.get(index); return range.contains(value) ? range : null; } return null; } @Override public Range span() { if (ranges.isEmpty()) { throw new NoSuchElementException(); } return Range.create(ranges.get(0).lowerBound, ranges.get(ranges.size() - 1).upperBound); } @Override public boolean isEmpty() { return ranges.isEmpty(); } /** * Guaranteed to throw an exception and leave the {@code RangeSet} unmodified. * * @throws UnsupportedOperationException always * @deprecated Unsupported operation. */ @Deprecated @Override public void add(Range range) { throw new UnsupportedOperationException(); } /** * Guaranteed to throw an exception and leave the {@code RangeSet} unmodified. * * @throws UnsupportedOperationException always * @deprecated Unsupported operation. */ @Deprecated @Override public void addAll(RangeSet other) { throw new UnsupportedOperationException(); } /** * Guaranteed to throw an exception and leave the {@code RangeSet} unmodified. * * @throws UnsupportedOperationException always * @deprecated Unsupported operation. */ @Deprecated @Override public void addAll(Iterable> other) { throw new UnsupportedOperationException(); } /** * Guaranteed to throw an exception and leave the {@code RangeSet} unmodified. * * @throws UnsupportedOperationException always * @deprecated Unsupported operation. */ @Deprecated @Override public void remove(Range range) { throw new UnsupportedOperationException(); } /** * Guaranteed to throw an exception and leave the {@code RangeSet} unmodified. * * @throws UnsupportedOperationException always * @deprecated Unsupported operation. */ @Deprecated @Override public void removeAll(RangeSet other) { throw new UnsupportedOperationException(); } /** * Guaranteed to throw an exception and leave the {@code RangeSet} unmodified. * * @throws UnsupportedOperationException always * @deprecated Unsupported operation. */ @Deprecated @Override public void removeAll(Iterable> other) { throw new UnsupportedOperationException(); } @Override public ImmutableSet> asRanges() { if (ranges.isEmpty()) { return ImmutableSet.of(); } return new RegularImmutableSortedSet<>(ranges, Range.rangeLexOrdering()); } @Override public ImmutableSet> asDescendingSetOfRanges() { if (ranges.isEmpty()) { return ImmutableSet.of(); } return new RegularImmutableSortedSet<>(ranges.reverse(), Range.rangeLexOrdering().reverse()); } private transient ImmutableRangeSet complement; private final class ComplementRanges extends ImmutableList> { // True if the "positive" range set is empty or bounded below. private final boolean positiveBoundedBelow; // True if the "positive" range set is empty or bounded above. private final boolean positiveBoundedAbove; private final int size; ComplementRanges() { this.positiveBoundedBelow = ranges.get(0).hasLowerBound(); this.positiveBoundedAbove = Iterables.getLast(ranges).hasUpperBound(); int size = ranges.size() - 1; if (positiveBoundedBelow) { size++; } if (positiveBoundedAbove) { size++; } this.size = size; } @Override public int size() { return size; } @Override public Range get(int index) { checkElementIndex(index, size); Cut lowerBound; if (positiveBoundedBelow) { lowerBound = (index == 0) ? Cut.belowAll() : ranges.get(index - 1).upperBound; } else { lowerBound = ranges.get(index).upperBound; } Cut upperBound; if (positiveBoundedAbove && index == size - 1) { upperBound = Cut.aboveAll(); } else { upperBound = ranges.get(index + (positiveBoundedBelow ? 0 : 1)).lowerBound; } return Range.create(lowerBound, upperBound); } @Override boolean isPartialView() { return true; } } @Override public ImmutableRangeSet complement() { ImmutableRangeSet result = complement; if (result != null) { return result; } else if (ranges.isEmpty()) { return complement = all(); } else if (ranges.size() == 1 && ranges.get(0).equals(Range.all())) { return complement = of(); } else { ImmutableList> complementRanges = new ComplementRanges(); result = complement = new ImmutableRangeSet(complementRanges, this); } return result; } /** * Returns a new range set consisting of the union of this range set and {@code other}. * *

This is essentially the same as {@code TreeRangeSet.create(this).addAll(other)} except it * returns an {@code ImmutableRangeSet}. * * @since 21.0 */ public ImmutableRangeSet union(RangeSet other) { return unionOf(Iterables.concat(asRanges(), other.asRanges())); } /** * Returns a new range set consisting of the intersection of this range set and {@code other}. * *

This is essentially the same as {@code * TreeRangeSet.create(this).removeAll(other.complement())} except it returns an {@code * ImmutableRangeSet}. * * @since 21.0 */ public ImmutableRangeSet intersection(RangeSet other) { RangeSet copy = TreeRangeSet.create(this); copy.removeAll(other.complement()); return copyOf(copy); } /** * Returns a new range set consisting of the difference of this range set and {@code other}. * *

This is essentially the same as {@code TreeRangeSet.create(this).removeAll(other)} except it * returns an {@code ImmutableRangeSet}. * * @since 21.0 */ public ImmutableRangeSet difference(RangeSet other) { RangeSet copy = TreeRangeSet.create(this); copy.removeAll(other); return copyOf(copy); } /** * Returns a list containing the nonempty intersections of {@code range} with the ranges in this * range set. */ private ImmutableList> intersectRanges(final Range range) { if (ranges.isEmpty() || range.isEmpty()) { return ImmutableList.of(); } else if (range.encloses(span())) { return ranges; } final int fromIndex; if (range.hasLowerBound()) { fromIndex = SortedLists.binarySearch( ranges, Range.upperBoundFn(), range.lowerBound, KeyPresentBehavior.FIRST_AFTER, KeyAbsentBehavior.NEXT_HIGHER); } else { fromIndex = 0; } int toIndex; if (range.hasUpperBound()) { toIndex = SortedLists.binarySearch( ranges, Range.lowerBoundFn(), range.upperBound, KeyPresentBehavior.FIRST_PRESENT, KeyAbsentBehavior.NEXT_HIGHER); } else { toIndex = ranges.size(); } final int length = toIndex - fromIndex; if (length == 0) { return ImmutableList.of(); } else { return new ImmutableList>() { @Override public int size() { return length; } @Override public Range get(int index) { checkElementIndex(index, length); if (index == 0 || index == length - 1) { return ranges.get(index + fromIndex).intersection(range); } else { return ranges.get(index + fromIndex); } } @Override boolean isPartialView() { return true; } }; } } /** Returns a view of the intersection of this range set with the given range. */ @Override public ImmutableRangeSet subRangeSet(Range range) { if (!isEmpty()) { Range span = span(); if (range.encloses(span)) { return this; } else if (range.isConnected(span)) { return new ImmutableRangeSet(intersectRanges(range)); } } return of(); } /** * Returns an {@link ImmutableSortedSet} containing the same values in the given domain * {@linkplain RangeSet#contains contained} by this range set. * *

Note: {@code a.asSet(d).equals(b.asSet(d))} does not imply {@code a.equals(b)}! For * example, {@code a} and {@code b} could be {@code [2..4]} and {@code (1..5)}, or the empty * ranges {@code [3..3)} and {@code [4..4)}. * *

Warning: Be extremely careful what you do with the {@code asSet} view of a large * range set (such as {@code ImmutableRangeSet.of(Range.greaterThan(0))}). Certain operations on * such a set can be performed efficiently, but others (such as {@link Set#hashCode} or {@link * Collections#frequency}) can cause major performance problems. * *

The returned set's {@link Object#toString} method returns a short-hand form of the set's * contents, such as {@code "[1..100]}"}. * * @throws IllegalArgumentException if neither this range nor the domain has a lower bound, or if * neither has an upper bound */ public ImmutableSortedSet asSet(DiscreteDomain domain) { checkNotNull(domain); if (isEmpty()) { return ImmutableSortedSet.of(); } Range span = span().canonical(domain); if (!span.hasLowerBound()) { // according to the spec of canonical, neither this ImmutableRangeSet nor // the range have a lower bound throw new IllegalArgumentException( "Neither the DiscreteDomain nor this range set are bounded below"); } else if (!span.hasUpperBound()) { try { domain.maxValue(); } catch (NoSuchElementException e) { throw new IllegalArgumentException( "Neither the DiscreteDomain nor this range set are bounded above"); } } return new AsSet(domain); } private final class AsSet extends ImmutableSortedSet { private final DiscreteDomain domain; AsSet(DiscreteDomain domain) { super(Ordering.natural()); this.domain = domain; } private transient Integer size; @Override public int size() { // racy single-check idiom Integer result = size; if (result == null) { long total = 0; for (Range range : ranges) { total += ContiguousSet.create(range, domain).size(); if (total >= Integer.MAX_VALUE) { break; } } result = size = Ints.saturatedCast(total); } return result.intValue(); } @Override public UnmodifiableIterator iterator() { return new AbstractIterator() { final Iterator> rangeItr = ranges.iterator(); Iterator elemItr = Iterators.emptyIterator(); @Override protected C computeNext() { while (!elemItr.hasNext()) { if (rangeItr.hasNext()) { elemItr = ContiguousSet.create(rangeItr.next(), domain).iterator(); } else { return endOfData(); } } return elemItr.next(); } }; } @Override public UnmodifiableIterator descendingIterator() { return new AbstractIterator() { final Iterator> rangeItr = ranges.reverse().iterator(); Iterator elemItr = Iterators.emptyIterator(); @Override protected C computeNext() { while (!elemItr.hasNext()) { if (rangeItr.hasNext()) { elemItr = ContiguousSet.create(rangeItr.next(), domain).descendingIterator(); } else { return endOfData(); } } return elemItr.next(); } }; } ImmutableSortedSet subSet(Range range) { return subRangeSet(range).asSet(domain); } @Override ImmutableSortedSet headSetImpl(C toElement, boolean inclusive) { return subSet(Range.upTo(toElement, BoundType.forBoolean(inclusive))); } @Override ImmutableSortedSet subSetImpl( C fromElement, boolean fromInclusive, C toElement, boolean toInclusive) { if (!fromInclusive && !toInclusive && Range.compareOrThrow(fromElement, toElement) == 0) { return ImmutableSortedSet.of(); } return subSet( Range.range( fromElement, BoundType.forBoolean(fromInclusive), toElement, BoundType.forBoolean(toInclusive))); } @Override ImmutableSortedSet tailSetImpl(C fromElement, boolean inclusive) { return subSet(Range.downTo(fromElement, BoundType.forBoolean(inclusive))); } @Override public boolean contains(Object o) { if (o == null) { return false; } try { @SuppressWarnings({"unchecked", "rawtypes"}) // we catch CCE's C c = (C) o; return ImmutableRangeSet.this.contains(c); } catch (ClassCastException e) { return false; } } @Override int indexOf(Object target) { if (contains(target)) { @SuppressWarnings({"unchecked", "rawtypes"}) // if it's contained, it's definitely a C C c = (C) target; long total = 0; for (Range range : ranges) { if (range.contains(c)) { return Ints.saturatedCast(total + ContiguousSet.create(range, domain).indexOf(c)); } else { total += ContiguousSet.create(range, domain).size(); } } throw new AssertionError("impossible"); } return -1; } @Override ImmutableSortedSet createDescendingSet() { return new DescendingImmutableSortedSet(this); } @Override boolean isPartialView() { return ranges.isPartialView(); } @Override public String toString() { return ranges.toString(); } @Override Object writeReplace() { return new AsSetSerializedForm(ranges, domain); } } @SuppressWarnings("rawtypes") private static class AsSetSerializedForm implements Serializable { private final ImmutableList> ranges; private final DiscreteDomain domain; AsSetSerializedForm(ImmutableList> ranges, DiscreteDomain domain) { this.ranges = ranges; this.domain = domain; } Object readResolve() { return new ImmutableRangeSet(ranges).asSet(domain); } } /** * Returns {@code true} if this immutable range set's implementation contains references to * user-created objects that aren't accessible via this range set's methods. This is generally * used to determine whether {@code copyOf} implementations should make an explicit copy to avoid * memory leaks. */ boolean isPartialView() { return ranges.isPartialView(); } /** Returns a new builder for an immutable range set. */ public static > Builder builder() { return new Builder(); } /** * A builder for immutable range sets. * * @since 14.0 */ public static class Builder> { private final List> ranges; public Builder() { this.ranges = Lists.newArrayList(); } // TODO(lowasser): consider adding union, in addition to add, that does allow overlap /** * Add the specified range to this builder. Adjacent ranges are permitted and will be merged, * but overlapping ranges will cause an exception when {@link #build()} is called. * * @throws IllegalArgumentException if {@code range} is empty */ public Builder add(Range range) { checkArgument(!range.isEmpty(), "range must not be empty, but was %s", range); ranges.add(range); return this; } /** * Add all ranges from the specified range set to this builder. Adjacent ranges are permitted * and will be merged, but overlapping ranges will cause an exception when {@link #build()} is * called. */ public Builder addAll(RangeSet ranges) { return addAll(ranges.asRanges()); } /** * Add all of the specified ranges to this builder. Adjacent ranges are permitted and will be * merged, but overlapping ranges will cause an exception when {@link #build()} is called. * * @throws IllegalArgumentException if any inserted ranges are empty * @since 21.0 */ public Builder addAll(Iterable> ranges) { for (Range range : ranges) { add(range); } return this; } Builder combine(Builder builder) { addAll(builder.ranges); return this; } /** * Returns an {@code ImmutableRangeSet} containing the ranges added to this builder. * * @throws IllegalArgumentException if any input ranges have nonempty overlap */ public ImmutableRangeSet build() { ImmutableList.Builder> mergedRangesBuilder = new ImmutableList.Builder<>(ranges.size()); Collections.sort(ranges, Range.rangeLexOrdering()); PeekingIterator> peekingItr = Iterators.peekingIterator(ranges.iterator()); while (peekingItr.hasNext()) { Range range = peekingItr.next(); while (peekingItr.hasNext()) { Range nextRange = peekingItr.peek(); if (range.isConnected(nextRange)) { checkArgument( range.intersection(nextRange).isEmpty(), "Overlapping ranges not permitted but found %s overlapping %s", range, nextRange); range = range.span(peekingItr.next()); } else { break; } } mergedRangesBuilder.add(range); } ImmutableList> mergedRanges = mergedRangesBuilder.build(); if (mergedRanges.isEmpty()) { return of(); } else if (mergedRanges.size() == 1 && Iterables.getOnlyElement(mergedRanges).equals(Range.all())) { return all(); } else { return new ImmutableRangeSet(mergedRanges); } } } @SuppressWarnings("rawtypes") private static final class SerializedForm implements Serializable { private final ImmutableList> ranges; SerializedForm(ImmutableList> ranges) { this.ranges = ranges; } Object readResolve() { if (ranges.isEmpty()) { return of(); } else if (ranges.equals(ImmutableList.of(Range.all()))) { return all(); } else { return new ImmutableRangeSet(ranges); } } } Object writeReplace() { return new SerializedForm(ranges); } }





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