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/*
 * ADOBE CONFIDENTIAL
 *
 * Copyright 2008 Adobe Systems Incorporated All Rights Reserved.
 *
 * NOTICE: All information contained herein is, and remains the property of
 * Adobe Systems Incorporated and its suppliers, if any. The intellectual and
 * technical concepts contained herein are proprietary to Adobe Systems
 * Incorporated and its suppliers and may be covered by U.S. and Foreign
 * Patents, patents in process, and are protected by trade secret or copyright
 * law. Dissemination of this information or reproduction of this material
 * is strictly forbidden unless prior written permission is obtained from
 * Adobe Systems Incorporated.
 */
package com.adobe.xfa;


/**
 * This class is used to correlate schema strings to their eTag (int) values.
 * The lookup mechanism is unique in that we want to avoid string comparisons at all costs.
 * Lookups are based on the fact that all Strings are interned and we match by string identity.
 * 
* The lookup algorithm is a simple fixed-size hash table. The table size is always a * power of 2, which is typically not ideal for linear probing, but using a prime number * (and the associated modulus operation) would make the lookup significantly more expensive. * * @exclude from published api */ public class SchemaStrings { private final String[] keys; private final int[] values; private int size; // # elements in the map private final int hashMask; /** * Constructor that allocates our internal data structures to * the specified size. * @param size - the size of our internal arrays. (They can't grow!) */ public SchemaStrings(int size) { final int capacity = calculateTableSize(size); keys = new String[capacity]; values = new int[capacity]; hashMask = capacity - 1; } private static int calculateTableSize(int capacity) { assert capacity > 0; // Linear probing goes bad when the load factor is > 80% capacity = capacity * 10 / 8; int n = 16; while (capacity > n) n *= 2; return n; } /** * This method populates the data structures. * It assumes that the array does not need to be resized. * @param sStr the String to add. * @param eTag the corresponding eTag */ public void put(String sStr, int eTag) { final int capacity = keys.length; // There must always be a free entry to terminate probing assert size < capacity - 1; int position = sStr.hashCode() & hashMask; while (true) { // It is an error to add a key twice assert !sStr.equals(keys[position]); if (keys[position] == null) { keys[position] = sStr; values[position] = eTag; size++; return; } position++; if (position == capacity) position = 0; } } /** * Find the tag integer matching this schema string * @param sStr the schema string to look up. * @return the corresponding tag. -1 if not found. */ public int getInt(String sStr) { final int capacity = keys.length; int position = sStr.hashCode() & hashMask; while (true) { final String key = keys[position]; if (key == null) return -1; // not found if (key.equals(sStr)) return values[position]; position++; if (position == capacity) position = 0; } } }




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