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package com.fireflysource.common.string;

import java.nio.charset.StandardCharsets;
import java.util.Arrays;

/**
 * SearchPattern
 * 

* Fast searching for patterns within strings and arrays of bytes. * Uses an implementation of the Boyer–Moore–Horspool algorithm * with a 256 character alphabet. *

* The algorithm has an average-case complexity of O(n) * on random text and O(nm) in the worst case. * where: * m = pattern length * n = length of data to search */ public class SearchPattern { static final int alphabetSize = 256; private int[] table; private byte[] pattern; /** * Produces a SearchPattern instance which can be used * to find matches of the pattern in data * * @param pattern byte array containing the pattern * @return a new SearchPattern instance using the given pattern */ public static SearchPattern compile(byte[] pattern) { return new SearchPattern(Arrays.copyOf(pattern, pattern.length)); } /** * Produces a SearchPattern instance which can be used * to find matches of the pattern in data * * @param pattern string containing the pattern * @return a new SearchPattern instance using the given pattern */ public static SearchPattern compile(String pattern) { return new SearchPattern(pattern.getBytes(StandardCharsets.UTF_8)); } /** * @param pattern byte array containing the pattern used for matching */ private SearchPattern(byte[] pattern) { this.pattern = pattern; if (pattern.length == 0) throw new IllegalArgumentException("Empty Pattern"); //Build up the pre-processed table for this pattern. table = new int[alphabetSize]; for (int i = 0; i < table.length; ++i) { table[i] = pattern.length; } for (int i = 0; i < pattern.length - 1; ++i) { table[0xff & pattern[i]] = pattern.length - 1 - i; } } /** * Search for a complete match of the pattern within the data * * @param data The data in which to search for. The data may be arbitrary binary data, * but the pattern will always be {@link StandardCharsets#US_ASCII} encoded. * @param offset The offset within the data to start the search * @param length The length of the data to search * @return The index within the data array at which the first instance of the pattern or -1 if not found */ public int match(byte[] data, int offset, int length) { validate(data, offset, length); int skip = offset; while (skip <= offset + length - pattern.length) { for (int i = pattern.length - 1; data[skip + i] == pattern[i]; i--) { if (i == 0) return skip; } skip += table[0xff & data[skip + pattern.length - 1]]; } return -1; } /** * Search for a partial match of the pattern at the end of the data. * * @param data The data in which to search for. The data may be arbitrary binary data, * but the pattern will always be {@link StandardCharsets#US_ASCII} encoded. * @param offset The offset within the data to start the search * @param length The length of the data to search * @return the length of the partial pattern matched and 0 for no match. */ public int endsWith(byte[] data, int offset, int length) { validate(data, offset, length); int skip = (pattern.length <= length) ? (offset + length - pattern.length) : offset; while (skip < offset + length) { for (int i = (offset + length - 1) - skip; data[skip + i] == pattern[i]; --i) { if (i == 0) return (offset + length - skip); } if (skip + pattern.length - 1 < data.length) skip += table[0xff & data[skip + pattern.length - 1]]; else skip++; } return 0; } /** * Search for a possibly partial match of the pattern at the start of the data. * * @param data The data in which to search for. The data may be arbitrary binary data, * but the pattern will always be {@link StandardCharsets#US_ASCII} encoded. * @param offset The offset within the data to start the search * @param length The length of the data to search * @param matched The length of the partial pattern already matched * @return the length of the partial pattern matched and 0 for no match. */ public int startsWith(byte[] data, int offset, int length, int matched) { validate(data, offset, length); int matchedCount = 0; for (int i = 0; i < pattern.length - matched && i < length; i++) { if (data[offset + i] == pattern[i + matched]) matchedCount++; else return 0; } return matched + matchedCount; } /** * Performs legality checks for standard arguments input into SearchPattern methods. * * @param data The data in which to search for. The data may be arbitrary binary data, * but the pattern will always be {@link StandardCharsets#US_ASCII} encoded. * @param offset The offset within the data to start the search * @param length The length of the data to search */ private void validate(byte[] data, int offset, int length) { if (offset < 0) throw new IllegalArgumentException("offset was negative"); else if (length < 0) throw new IllegalArgumentException("length was negative"); else if (offset + length > data.length) throw new IllegalArgumentException("(offset+length) out of bounds of data[]"); } /** * @return The length of the pattern in bytes. */ public int getLength() { return pattern.length; } }





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