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fastutil extends the Java Collections Framework by providing type-specific maps, sets, lists and priority queues with a small memory footprint and fast access and insertion; provides also big (64-bit) arrays, sets and lists, and fast, practical I/O classes for binary and text files.

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/*
	* Copyright (C) 2003-2020 Paolo Boldi and Sebastiano Vigna
	*
	* 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.
	*/
package it.unimi.dsi.fastutil.floats;
import java.util.Arrays;
/**
 * A class providing static methods and objects that do useful things with
 * indirect heaps.
 *
 * 

* An indirect heap is an extension of a semi-indirect heap using also an * inversion array of the same length as the reference array, * satisfying the relation {@code heap[inv[i]]==i} when {@code inv[i]>=0}, * and {@code inv[heap[i]]==i} for all elements in the heap. */ public final class FloatIndirectHeaps { private FloatIndirectHeaps() { } /** * Moves the given element down into the indirect heap until it reaches the * lowest possible position. * * @param refArray * the reference array. * @param heap * the indirect heap (starting at 0). * @param inv * the inversion array. * @param size * the number of elements in the heap. * @param i * the index in the heap of the element to be moved down. * @param c * a type-specific comparator, or {@code null} for the natural order. * @return the new position in the heap of the element of heap index {@code i}. */ public static int downHeap(final float[] refArray, final int[] heap, final int[] inv, final int size, int i, final FloatComparator c) { assert i < size; final int e = heap[i]; final float E = refArray[e]; int child; if (c == null) while ((child = (i << 1) + 1) < size) { int t = heap[child]; final int right = child + 1; if (right < size && (Float.compare((refArray[heap[right]]), (refArray[t])) < 0)) t = heap[child = right]; if ((Float.compare((E), (refArray[t])) <= 0)) break; heap[i] = t; inv[heap[i]] = i; i = child; } else while ((child = (i << 1) + 1) < size) { int t = heap[child]; final int right = child + 1; if (right < size && c.compare(refArray[heap[right]], refArray[t]) < 0) t = heap[child = right]; if (c.compare(E, refArray[t]) <= 0) break; heap[i] = t; inv[heap[i]] = i; i = child; } heap[i] = e; inv[e] = i; return i; } /** * Moves the given element up in the indirect heap until it reaches the highest * possible position. * * Note that in principle after this call the heap property may be violated. * * @param refArray * the reference array. * @param heap * the indirect heap (starting at 0). * @param inv * the inversion array. * @param size * the number of elements in the heap. * @param i * the index in the heap of the element to be moved up. * @param c * a type-specific comparator, or {@code null} for the natural order. * @return the new position in the heap of the element of heap index {@code i}. */ public static int upHeap(final float[] refArray, final int[] heap, final int[] inv, final int size, int i, final FloatComparator c) { assert i < size; final int e = heap[i]; final float E = refArray[e]; if (c == null) while (i != 0) { final int parent = (i - 1) >>> 1; final int t = heap[parent]; if ((Float.compare((refArray[t]), (E)) <= 0)) break; heap[i] = t; inv[heap[i]] = i; i = parent; } else while (i != 0) { final int parent = (i - 1) >>> 1; final int t = heap[parent]; if (c.compare(refArray[t], E) <= 0) break; heap[i] = t; inv[heap[i]] = i; i = parent; } heap[i] = e; inv[e] = i; return i; } /** * Creates an indirect heap in the given array. * * @param refArray * the reference array. * @param offset * the first element of the reference array to be put in the heap. * @param length * the number of elements to be put in the heap. * @param heap * the array where the heap is to be created. * @param inv * the inversion array. * @param c * a type-specific comparator, or {@code null} for the natural order. */ public static void makeHeap(final float[] refArray, final int offset, final int length, final int[] heap, final int[] inv, final FloatComparator c) { FloatArrays.ensureOffsetLength(refArray, offset, length); if (heap.length < length) throw new IllegalArgumentException( "The heap length (" + heap.length + ") is smaller than the number of elements (" + length + ")"); if (inv.length < refArray.length) throw new IllegalArgumentException("The inversion array length (" + heap.length + ") is smaller than the length of the reference array (" + refArray.length + ")"); Arrays.fill(inv, 0, refArray.length, -1); int i = length; while (i-- != 0) inv[heap[i] = offset + i] = i; i = length >>> 1; while (i-- != 0) downHeap(refArray, heap, inv, length, i, c); } /** * Creates an indirect heap from a given index array. * * @param refArray * the reference array. * @param heap * an array containing indices into {@code refArray}. * @param inv * the inversion array. * @param size * the number of elements in the heap. * @param c * a type-specific comparator, or {@code null} for the natural order. */ public static void makeHeap(final float[] refArray, final int[] heap, final int[] inv, final int size, final FloatComparator c) { int i = size >>> 1; while (i-- != 0) downHeap(refArray, heap, inv, size, i, c); } }





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