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International Component for Unicode for Java (ICU4J) is a mature, widely used Java library providing Unicode and Globalization support

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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html#License
//
//    Copyright (C) 2002-2014, International Business Machines Corporation and others.
//    All Rights Reserved.
//
//

package com.ibm.icu.text;

import java.io.DataOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;

import com.ibm.icu.impl.Assert;
import com.ibm.icu.impl.ICUBinary;
import com.ibm.icu.impl.ICUDebug;
import com.ibm.icu.impl.RBBIDataWrapper;

class RBBIRuleBuilder {
    //   This is the main class for building (compiling) break rules into the tables
    //    required by the runtime RBBI engine.
    //

    String fDebugEnv;              // controls debug trace output
    String fRules;                 // The rule string that we are compiling
    StringBuilder fStrippedRules;  // The rule string, with comments stripped.
    RBBIRuleScanner fScanner;      // The scanner.


    //
    //  There are four separate parse trees generated, one for each of the
    //    forward rules, reverse rules, safe forward rules and safe reverse rules.
    //    This array references the root of each of the trees.
    //    Only fForwardTree data is actually used to generate a state table.
    //    The other three are retained for back compatibility with old rule files,
    //    which may have safe and reverse rules. These are still parsed.
    //
    RBBINode[]         fTreeRoots = new RBBINode[4];
    static final int   fForwardTree = 0;  // Indexes into the above fTreeRoots array
    static final int   fReverseTree = 1;  //   for each of the trees.
    static final int   fSafeFwdTree = 2;  //   (in C, these are pointer variables and
    static final int   fSafeRevTree = 3;  //    there is no array.)
    int fDefaultTree = fForwardTree;      // For rules not qualified with a !
                                          //   the tree to which they belong to.

    boolean fChainRules;                  // True for chained Unicode TR style rules.
                                          // False for traditional regexp rules.

    boolean fLBCMNoChain;                 // True:  suppress chaining of rules on
                                          //   chars with LineBreak property == CM.

    boolean fLookAheadHardBreak;          // True:  Look ahead matches cause an
                                          // immediate break, no continuing for the
                                          // longest match.

    RBBISetBuilder fSetBuilder;           // Set and Character Category builder.
    List fUSetNodes;            // Vector of all used nodes.
    RBBITableBuilder fForwardTable;       // State transition tables

    //
    // Status {tag} values.   These structures are common to all of the rule sets (Forward, Reverse, etc.).
    //
    Map, Integer> fStatusSets = new HashMap, Integer>(); // Status value sets encountered so far.
                                                                                   //  Map Key is the set of values.
                                                                                   //  Map Value is the runtime array index.

    List fRuleStatusVals;        // List of Integer objects.  Has same layout as the
                                          //   runtime array of status (tag) values -
                                          //     number of values in group 1
                                          //        first status value in group 1
                                          //        2nd status value in group 1
                                          //        ...
                                          //     number of values in group 2
                                          //        first status value in group 2
                                          //        etc.
                                          //
    // Error codes from ICU4C.
    //    using these simplified the porting, and consolidated the
    //    creation of Java exceptions
    //
    static final int U_BRK_ERROR_START = 0x10200;
    /**< Start of codes indicating Break Iterator failures */

    static final int U_BRK_INTERNAL_ERROR = 0x10201;
    /**< An internal error (bug) was detected.             */

    static final int U_BRK_HEX_DIGITS_EXPECTED = 0x10202;
    /**< Hex digits expected as part of a escaped char in a rule. */

    static final int U_BRK_SEMICOLON_EXPECTED = 0x10203;
    /**< Missing ';' at the end of a RBBI rule.            */

    static final int U_BRK_RULE_SYNTAX = 0x10204;
    /**< Syntax error in RBBI rule.                        */

    static final int U_BRK_UNCLOSED_SET = 0x10205;
    /**< UnicodeSet writing an RBBI rule missing a closing ']'.  */

    static final int U_BRK_ASSIGN_ERROR = 0x10206;
    /**< Syntax error in RBBI rule assignment statement.   */

    static final int U_BRK_VARIABLE_REDFINITION = 0x10207;
    /**< RBBI rule $Variable redefined.                    */

    static final int U_BRK_MISMATCHED_PAREN = 0x10208;
    /**< Mis-matched parentheses in an RBBI rule.          */

    static final int U_BRK_NEW_LINE_IN_QUOTED_STRING = 0x10209;
    /**< Missing closing quote in an RBBI rule.            */

    static final int U_BRK_UNDEFINED_VARIABLE = 0x1020a;
    /**< Use of an undefined $Variable in an RBBI rule.    */

    static final int U_BRK_INIT_ERROR = 0x1020b;
    /**< Initialization failure.  Probable missing ICU Data. */

    static final int U_BRK_RULE_EMPTY_SET = 0x1020c;
    /**< Rule contains an empty Unicode Set.               */

    static final int U_BRK_UNRECOGNIZED_OPTION = 0x1020d;
    /**< !!option in RBBI rules not recognized.            */

    static final int U_BRK_MALFORMED_RULE_TAG = 0x1020e;
    /**< The {nnn} tag on a rule is mal formed             */
    static final int U_BRK_MALFORMED_SET = 0x1020f;

    static final int U_BRK_ERROR_LIMIT = 0x10210;
    /**< This must always be the last value to indicate the limit for Break Iterator failures */


    //----------------------------------------------------------------------------------------
    //
    //  Constructor.
    //
    //----------------------------------------------------------------------------------------
    RBBIRuleBuilder(String rules)
    {
        fDebugEnv       = ICUDebug.enabled("rbbi") ?
                            ICUDebug.value("rbbi") : null;
        fRules          = rules;
        fStrippedRules  = new StringBuilder(rules);
        fUSetNodes      = new ArrayList();
        fRuleStatusVals = new ArrayList();
        fScanner        = new RBBIRuleScanner(this);
        fSetBuilder     = new RBBISetBuilder(this);
    }

    //----------------------------------------------------------------------------------------
    //
    //   flattenData() -  Collect up the compiled RBBI rule data and put it into
    //                    the format for saving in ICU data files,
    //
    //                    See the ICU4C file common/rbidata.h for a detailed description.
    //
    //----------------------------------------------------------------------------------------
    static final int align8(int i)
    {
        return (i + 7) & 0xfffffff8;
    }

    void flattenData(OutputStream os) throws IOException {
        DataOutputStream dos = new DataOutputStream(os);
        int i;

        //  Remove whitespace from the rules to make it smaller.
        //  The rule parser has already removed comments.
        String strippedRules = RBBIRuleScanner.stripRules(fStrippedRules.toString());

        // Calculate the size of each section in the data in bytes.
        //   Sizes here are padded up to a multiple of 8 for better memory alignment.
        //   Sections sizes actually stored in the header are for the actual data
        //     without the padding.
        //
        int headerSize       = RBBIDataWrapper.DH_SIZE * 4;     // align8(sizeof(RBBIDataHeader));
        int forwardTableSize = align8(fForwardTable.getTableSize());
        int reverseTableSize = align8(fForwardTable.getSafeTableSize());
        int trieSize         = align8(fSetBuilder.getTrieSize());
        int statusTableSize  = align8(fRuleStatusVals.size() * 4);
        int rulesSize        = align8((strippedRules.length()) * 2);

        int totalSize = headerSize
                + forwardTableSize
                + reverseTableSize
                + statusTableSize + trieSize + rulesSize;
        int outputPos = 0;               // Track stream position, starting from RBBIDataHeader.

        //
        // Write out an ICU Data Header
        //
        ICUBinary.writeHeader(RBBIDataWrapper.DATA_FORMAT, RBBIDataWrapper.FORMAT_VERSION, 0, dos);

        //
        // Write out the RBBIDataHeader
        //
        int[] header = new int[RBBIDataWrapper.DH_SIZE];                 // sizeof struct RBBIDataHeader
        header[RBBIDataWrapper.DH_MAGIC]         = 0xb1a0;
        header[RBBIDataWrapper.DH_FORMATVERSION] = RBBIDataWrapper.FORMAT_VERSION;
        header[RBBIDataWrapper.DH_LENGTH]        = totalSize;            // fLength, the total size of all rule sections.
        header[RBBIDataWrapper.DH_CATCOUNT]      = fSetBuilder.getNumCharCategories(); // fCatCount.

        header[RBBIDataWrapper.DH_FTABLE]        = headerSize;           // fFTable
        header[RBBIDataWrapper.DH_FTABLELEN]     = forwardTableSize;     // fTableLen

        header[RBBIDataWrapper.DH_RTABLE]        = header[RBBIDataWrapper.DH_FTABLE] + forwardTableSize; // fRTable
        header[RBBIDataWrapper.DH_RTABLELEN]     = reverseTableSize;     // fRTableLen

        header[RBBIDataWrapper.DH_TRIE]          = header[RBBIDataWrapper.DH_RTABLE]
                                                     + header[RBBIDataWrapper.DH_RTABLELEN]; // fTrie
        header[RBBIDataWrapper.DH_TRIELEN]       = fSetBuilder.getTrieSize(); // fTrieLen
        header[RBBIDataWrapper.DH_STATUSTABLE]   = header[RBBIDataWrapper.DH_TRIE]
                                                     + header[RBBIDataWrapper.DH_TRIELEN];
        header[RBBIDataWrapper.DH_STATUSTABLELEN] = statusTableSize; // fStatusTableLen
        header[RBBIDataWrapper.DH_RULESOURCE]    = header[RBBIDataWrapper.DH_STATUSTABLE]
                                                     + statusTableSize;
        header[RBBIDataWrapper.DH_RULESOURCELEN] = strippedRules.length() * 2;
        for (i = 0; i < header.length; i++) {
            dos.writeInt(header[i]);
            outputPos += 4;
        }

        // Write out the actual state tables.
        RBBIDataWrapper.RBBIStateTable table = fForwardTable.exportTable();
        assert(outputPos == header[RBBIDataWrapper.DH_FTABLE]);
        outputPos += table.put(dos);

        table = fForwardTable.exportSafeTable();
        Assert.assrt(outputPos == header[RBBIDataWrapper.DH_RTABLE]);
        outputPos += table.put(dos);

        // write out the Trie table
        Assert.assrt(outputPos == header[RBBIDataWrapper.DH_TRIE]);
        fSetBuilder.serializeTrie(os);
        outputPos += header[RBBIDataWrapper.DH_TRIELEN];
        while (outputPos % 8 != 0) { // pad to an 8 byte boundary
            dos.write(0);
            outputPos += 1;
        }

        // Write out the status {tag} table.
        Assert.assrt(outputPos == header[RBBIDataWrapper.DH_STATUSTABLE]);
        for (Integer val : fRuleStatusVals) {
            dos.writeInt(val.intValue());
            outputPos += 4;
        }

        while (outputPos % 8 != 0) { // pad to an 8 byte boundary
            dos.write(0);
            outputPos += 1;
        }

        // Write out the stripped rules (rules with extra spaces removed
        //   These go last in the data area, even though they are not last in the header.
        Assert.assrt(outputPos == header[RBBIDataWrapper.DH_RULESOURCE]);
        dos.writeChars(strippedRules);
        outputPos += strippedRules.length() * 2;
        while (outputPos % 8 != 0) { // pad to an 8 byte boundary
            dos.write(0);
            outputPos += 1;
        }
    }

    //----------------------------------------------------------------------------------------
    //
    //  compileRules          compile source rules, placing the compiled form into a output stream
    //                        The compiled form is identical to that from ICU4C (Big Endian).
    //
    //----------------------------------------------------------------------------------------
    static void compileRules(String rules, OutputStream os) throws IOException
    {
        //
        // Read the input rules, generate a parse tree, symbol table,
        // and list of all Unicode Sets referenced by the rules.
        //
        RBBIRuleBuilder builder = new RBBIRuleBuilder(rules);
        builder.build(os);
    }

    /**
     * Compile rules to the binary form, write that to an ouput stream.
     *
     */
    void build(OutputStream os) throws IOException {
        fScanner.parse();

        //
        // UnicodeSet processing.
        //    Munge the Unicode Sets to create a set of character categories.
        //    Generate the mapping tables (TRIE) from input code points to
        //    the character categories.
        //
        fSetBuilder.buildRanges();

        //
        //   Generate the DFA state transition table.
        //
        fForwardTable = new RBBITableBuilder(this, fForwardTree);
        fForwardTable.buildForwardTable();
        optimizeTables();
        fForwardTable.buildSafeReverseTable();


        if (fDebugEnv != null
                && fDebugEnv.indexOf("states") >= 0) {
            fForwardTable.printStates();
            fForwardTable.printRuleStatusTable();
            fForwardTable.printReverseTable();
        }

        fSetBuilder.buildTrie();
        //
        //   Package up the compiled data, writing it to an output stream
        //      in the serialization format.  This is the same as the ICU4C runtime format.
        //
        flattenData(os);
    }

    static class IntPair {
        int first = 0;
        int second = 0;
        IntPair() {};
        IntPair(int f, int s) {
            first = f;
            second = s;
        }
    }

    void optimizeTables() {
        boolean didSomething;
        do {
            didSomething = false;
            // Begin looking for duplicates with char class 3.
            // Classes 0, 1 and 2 are special; they are unused, {bof} and {eof} respectively,
            // and should not have other categories merged into them.
            IntPair duplPair = new IntPair(3, 0);
            while (fForwardTable.findDuplCharClassFrom(duplPair)) {
                fSetBuilder.mergeCategories(duplPair);
                fForwardTable.removeColumn(duplPair.second);
                didSomething = true;
            }
            while (fForwardTable.removeDuplicateStates() > 0) {
                didSomething = true;
            };
        } while (didSomething);
    }
}




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