All Downloads are FREE. Search and download functionalities are using the official Maven repository.

com.ibm.icu.text.RBBIDataWrapper Maven / Gradle / Ivy

Go to download

Vaadin is a web application framework for Rich Internet Applications (RIA). Vaadin enables easy development and maintenance of fast and secure rich web applications with a stunning look and feel and a wide browser support. It features a server-side architecture with the majority of the logic running on the server. Ajax technology is used at the browser-side to ensure a rich and interactive user experience.

There is a newer version: 1.2.0
Show newest version
/**
*******************************************************************************
* Copyright (C) 1996-2011, International Business Machines Corporation and    *
* others. All Rights Reserved.                                                *
*******************************************************************************
*/

package com.ibm.icu.text;

import java.io.BufferedInputStream;
import java.io.DataInputStream;
import java.io.IOException;
import java.io.InputStream;

import com.ibm.icu.impl.CharTrie;
import com.ibm.icu.impl.Trie;

/**
* 

Internal class used for Rule Based Break Iterators

*

This class provides access to the compiled break rule data, as * it is stored in a .brk file. */ final class RBBIDataWrapper { // // These fields are the ready-to-use compiled rule data, as // read from the file. // RBBIDataHeader fHeader; short fFTable[]; short fRTable[]; short fSFTable[]; short fSRTable[]; CharTrie fTrie; String fRuleSource; int fStatusTable[]; // // Indexes to fields in the ICU4C style binary form of the RBBI Data Header // Used by the rule compiler when flattening the data. // final static int DH_SIZE = 24; final static int DH_MAGIC = 0; final static int DH_FORMATVERSION = 1; final static int DH_LENGTH = 2; final static int DH_CATCOUNT = 3; final static int DH_FTABLE = 4; final static int DH_FTABLELEN = 5; final static int DH_RTABLE = 6; final static int DH_RTABLELEN = 7; final static int DH_SFTABLE = 8; final static int DH_SFTABLELEN = 9; final static int DH_SRTABLE = 10; final static int DH_SRTABLELEN = 11; final static int DH_TRIE = 12; final static int DH_TRIELEN = 13; final static int DH_RULESOURCE = 14; final static int DH_RULESOURCELEN = 15; final static int DH_STATUSTABLE = 16; final static int DH_STATUSTABLELEN = 17; // Index offsets to the fields in a state table row. // Corresponds to struct RBBIStateTableRow in the C version. // final static int ACCEPTING = 0; final static int LOOKAHEAD = 1; final static int TAGIDX = 2; final static int RESERVED = 3; final static int NEXTSTATES = 4; // Index offsets to header fields of a state table // struct RBBIStateTable {... in the C version. // final static int NUMSTATES = 0; final static int ROWLEN = 2; final static int FLAGS = 4; final static int RESERVED_2 = 6; final static int ROW_DATA = 8; // Bit selectors for the "FLAGS" field of the state table header // enum RBBIStateTableFlags in the C version. // final static int RBBI_LOOKAHEAD_HARD_BREAK = 1; final static int RBBI_BOF_REQUIRED = 2; /** * Data Header. A struct-like class with the fields from the RBBI data file header. */ final static class RBBIDataHeader { int fMagic; // == 0xbla0 int fVersion; // == 1 (for ICU 3.2 and earlier. byte[] fFormatVersion; // For ICU 3.4 and later. int fLength; // Total length in bytes of this RBBI Data, // including all sections, not just the header. int fCatCount; // Number of character categories. // // Offsets and sizes of each of the subsections within the RBBI data. // All offsets are bytes from the start of the RBBIDataHeader. // All sizes are in bytes. // int fFTable; // forward state transition table. int fFTableLen; int fRTable; // Offset to the reverse state transition table. int fRTableLen; int fSFTable; // safe point forward transition table int fSFTableLen; int fSRTable; // safe point reverse transition table int fSRTableLen; int fTrie; // Offset to Trie data for character categories int fTrieLen; int fRuleSource; // Offset to the source for for the break int fRuleSourceLen; // rules. Stored UChar *. int fStatusTable; // Offset to the table of rule status values int fStatusTableLen; public RBBIDataHeader() { fMagic = 0; fFormatVersion = new byte[4]; } } /** * RBBI State Table Indexing Function. Given a state number, return the * array index of the start of the state table row for that state. * */ int getRowIndex(int state){ return ROW_DATA + state * (fHeader.fCatCount + 4); } static class TrieFoldingFunc implements Trie.DataManipulate { public int getFoldingOffset(int data) { if ((data & 0x8000) != 0) { return data & 0x7fff; } else { return 0; } } } static TrieFoldingFunc fTrieFoldingFunc = new TrieFoldingFunc(); RBBIDataWrapper() { } /* * Get an RBBIDataWrapper from an InputStream onto a pre-compiled set * of RBBI rules. */ static RBBIDataWrapper get(InputStream is) throws IOException { int i; DataInputStream dis = new DataInputStream(new BufferedInputStream(is)); RBBIDataWrapper This = new RBBIDataWrapper(); // Seek past the ICU data header. // TODO: verify that the header looks good. dis.skip(0x80); // Read in the RBBI data header... This.fHeader = new RBBIDataHeader(); This.fHeader.fMagic = dis.readInt(); This.fHeader.fVersion = dis.readInt(); This.fHeader.fFormatVersion[0] = (byte) (This.fHeader.fVersion >> 24); This.fHeader.fFormatVersion[1] = (byte) (This.fHeader.fVersion >> 16); This.fHeader.fFormatVersion[2] = (byte) (This.fHeader.fVersion >> 8); This.fHeader.fFormatVersion[3] = (byte) (This.fHeader.fVersion); This.fHeader.fLength = dis.readInt(); This.fHeader.fCatCount = dis.readInt(); This.fHeader.fFTable = dis.readInt(); This.fHeader.fFTableLen = dis.readInt(); This.fHeader.fRTable = dis.readInt(); This.fHeader.fRTableLen = dis.readInt(); This.fHeader.fSFTable = dis.readInt(); This.fHeader.fSFTableLen = dis.readInt(); This.fHeader.fSRTable = dis.readInt(); This.fHeader.fSRTableLen = dis.readInt(); This.fHeader.fTrie = dis.readInt(); This.fHeader.fTrieLen = dis.readInt(); This.fHeader.fRuleSource = dis.readInt(); This.fHeader.fRuleSourceLen = dis.readInt(); This.fHeader.fStatusTable = dis.readInt(); This.fHeader.fStatusTableLen = dis.readInt(); dis.skip(6 * 4); // uint32_t fReserved[6]; if (This.fHeader.fMagic != 0xb1a0 || ! (This.fHeader.fVersion == 1 || // ICU 3.2 and earlier This.fHeader.fFormatVersion[0] == 3) // ICU 3.4 ) { throw new IOException("Break Iterator Rule Data Magic Number Incorrect, or unsupported data version."); } // Current position in input stream. int pos = 24 * 4; // offset of end of header, which has 24 fields, all int32_t (4 bytes) // // Read in the Forward state transition table as an array of shorts. // // Quick Sanity Check if (This.fHeader.fFTable < pos || This.fHeader.fFTable > This.fHeader.fLength) { throw new IOException("Break iterator Rule data corrupt"); } // Skip over any padding preceding this table dis.skip(This.fHeader.fFTable - pos); pos = This.fHeader.fFTable; This.fFTable = new short[This.fHeader.fFTableLen / 2]; for ( i=0; i 0) { // Skip over any padding in the file dis.skip(This.fHeader.fSFTable - pos); pos = This.fHeader.fSFTable; // Create & fill the table itself. This.fSFTable = new short[This.fHeader.fSFTableLen / 2]; for (i=0; i 0) { // Skip over any padding in the file dis.skip(This.fHeader.fSRTable - pos); pos = This.fHeader.fSRTable; // Create & fill the table itself. This.fSRTable = new short[This.fHeader.fSRTableLen / 2]; for (i=0; i This.fHeader.fStatusTable) { throw new IOException("Break iterator Rule data corrupt"); } dis.skip(This.fHeader.fStatusTable - pos); pos = This.fHeader.fStatusTable; This.fStatusTable = new int[This.fHeader.fStatusTableLen / 4]; for (i=0; i This.fHeader.fRuleSource) { throw new IOException("Break iterator Rule data corrupt"); } dis.skip(This.fHeader.fRuleSource - pos); pos = This.fHeader.fRuleSource; StringBuilder sb = new StringBuilder(This.fHeader.fRuleSourceLen / 2); for (i=0; i=0) { This.dump(); } return This; } ///CLOVER:OFF // Getters for fields from the state table header // final static int getNumStates(short table[]) { int hi = table[NUMSTATES]; int lo = table[NUMSTATES+1]; int val = (hi<<16) + (lo&0x0000ffff); return val; } ///CLOVER:ON ///CLOVER:OFF /* Debug function to display the break iterator data. */ void dump() { System.out.println("RBBI Data Wrapper dump ..."); System.out.println(); System.out.println("Forward State Table"); dumpTable(fFTable); System.out.println("Reverse State Table"); dumpTable(fRTable); System.out.println("Forward Safe Points Table"); dumpTable(fSFTable); System.out.println("Reverse Safe Points Table"); dumpTable(fSRTable); dumpCharCategories(); System.out.println("Source Rules: " + fRuleSource); } ///CLOVER:ON ///CLOVER:OFF /* Fixed width int-to-string conversion. */ static public String intToString(int n, int width) { StringBuilder dest = new StringBuilder(width); dest.append(n); while (dest.length() < width) { dest.insert(0, ' '); } return dest.toString(); } ///CLOVER:ON ///CLOVER:OFF /* Fixed width int-to-string conversion. */ static public String intToHexString(int n, int width) { StringBuilder dest = new StringBuilder(width); dest.append(Integer.toHexString(n)); while (dest.length() < width) { dest.insert(0, ' '); } return dest.toString(); } ///CLOVER:ON ///CLOVER:OFF /** Dump a state table. (A full set of RBBI rules has 4 state tables.) */ private void dumpTable(short table[]) { if (table == null) { System.out.println(" -- null -- "); } else { int n; int state; StringBuilder header = new StringBuilder(" Row Acc Look Tag"); for (n=0; n fHeader.fCatCount) { System.out.println("Error, bad category " + Integer.toHexString(category) + " for char " + Integer.toHexString(char32)); break; } if (category == lastCat ) { rangeEnd = char32; } else { if (lastCat >= 0) { if (catStrings[lastCat].length() > lastNewline[lastCat] + 70) { lastNewline[lastCat] = catStrings[lastCat].length() + 10; catStrings[lastCat] += "\n "; } catStrings[lastCat] += " " + Integer.toHexString(rangeStart); if (rangeEnd != rangeStart) { catStrings[lastCat] += "-" + Integer.toHexString(rangeEnd); } } lastCat = category; rangeStart = rangeEnd = char32; } } catStrings[lastCat] += " " + Integer.toHexString(rangeStart); if (rangeEnd != rangeStart) { catStrings[lastCat] += "-" + Integer.toHexString(rangeEnd); } for (category = 0; category <= fHeader.fCatCount; category ++) { System.out.println (intToString(category, 5) + " " + catStrings[category]); } System.out.println(); } ///CLOVER:ON /*static RBBIDataWrapper get(String name) throws IOException { String fullName = "data/" + name; InputStream is = ICUData.getRequiredStream(fullName); return get(is); } public static void main(String[] args) { String s; if (args.length == 0) { s = "char"; } else { s = args[0]; } System.out.println("RBBIDataWrapper.main(" + s + ") "); String versionedName = ICUResourceBundle.ICU_BUNDLE+"/"+ s + ".brk"; try { RBBIDataWrapper This = RBBIDataWrapper.get(versionedName); This.dump(); } catch (Exception e) { System.out.println("Exception: " + e.toString()); } }*/ }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy