| /* |
| ******************************************************************************* |
| * Copyright (C) 2006-2015, International Business Machines Corporation and |
| * others. All Rights Reserved. |
| ******************************************************************************* |
| */ |
| |
| package com.ibm.icu.charset; |
| |
| import java.io.IOException; |
| import java.nio.ByteBuffer; |
| import java.nio.CharBuffer; |
| import java.nio.IntBuffer; |
| |
| import com.ibm.icu.charset.CharsetMBCS.MBCSHeader; |
| import com.ibm.icu.charset.CharsetMBCS.MBCSToUFallback; |
| import com.ibm.icu.charset.CharsetMBCS.UConverterMBCSTable; |
| import com.ibm.icu.impl.ICUBinary; |
| import com.ibm.icu.impl.InvalidFormatException; |
| |
| /** |
| * ucnvmbcs.h |
| * |
| * ICU conversion (.cnv) data file structure, following the usual UDataInfo |
| * header. |
| * |
| * Format version: 6.2 |
| * |
| * struct UConverterStaticData -- struct containing the converter name, IBM CCSID, |
| * min/max bytes per character, etc. |
| * see ucnv_bld.h |
| * |
| * -------------------- |
| * |
| * The static data is followed by conversionType-specific data structures. |
| * At the moment, there are only variations of MBCS converters. They all have |
| * the same toUnicode structures, while the fromUnicode structures for SBCS |
| * differ from those for other MBCS-style converters. |
| * |
| * _MBCSHeader.version 4.2 adds an optional conversion extension data structure. |
| * If it is present, then an ICU version reading header versions 4.0 or 4.1 |
| * will be able to use the base table and ignore the extension. |
| * |
| * The unicodeMask in the static data is part of the base table data structure. |
| * Especially, the UCNV_HAS_SUPPLEMENTARY flag determines the length of the |
| * fromUnicode stage 1 array. |
| * The static data unicodeMask refers only to the base table's properties if |
| * a base table is included. |
| * In an extension-only file, the static data unicodeMask is 0. |
| * The extension data indexes have a separate field with the unicodeMask flags. |
| * |
| * MBCS-style data structure following the static data. |
| * Offsets are counted in bytes from the beginning of the MBCS header structure. |
| * Details about usage in comments in ucnvmbcs.c. |
| * |
| * struct _MBCSHeader (see the definition in this header file below) |
| * contains 32-bit fields as follows: |
| * 8 values: |
| * 0 uint8_t[4] MBCS version in UVersionInfo format (currently 4.2.0.0) |
| * 1 uint32_t countStates |
| * 2 uint32_t countToUFallbacks |
| * 3 uint32_t offsetToUCodeUnits |
| * 4 uint32_t offsetFromUTable |
| * 5 uint32_t offsetFromUBytes |
| * 6 uint32_t flags, bits: |
| * 31.. 8 offsetExtension -- _MBCSHeader.version 4.2 (ICU 2.8) and higher |
| * 0 for older versions and if |
| * there is not extension structure |
| * 7.. 0 outputType |
| * 7 uint32_t fromUBytesLength -- _MBCSHeader.version 4.1 (ICU 2.4) and higher |
| * counts bytes in fromUBytes[] |
| * |
| * if(outputType==MBCS_OUTPUT_EXT_ONLY) { |
| * -- base table name for extension-only table |
| * char baseTableName[variable]; -- with NUL plus padding for 4-alignment |
| * |
| * -- all _MBCSHeader fields except for version and flags are 0 |
| * } else { |
| * -- normal base table with optional extension |
| * |
| * int32_t stateTable[countStates][256]; |
| * |
| * struct _MBCSToUFallback { (fallbacks are sorted by offset) |
| * uint32_t offset; |
| * UChar32 codePoint; |
| * } toUFallbacks[countToUFallbacks]; |
| * |
| * uint16_t unicodeCodeUnits[(offsetFromUTable-offsetToUCodeUnits)/2]; |
| * (padded to an even number of units) |
| * |
| * -- stage 1 tables |
| * if(staticData.unicodeMask&UCNV_HAS_SUPPLEMENTARY) { |
| * -- stage 1 table for all of Unicode |
| * uint16_t fromUTable[0x440]; (32-bit-aligned) |
| * } else { |
| * -- BMP-only tables have a smaller stage 1 table |
| * uint16_t fromUTable[0x40]; (32-bit-aligned) |
| * } |
| * |
| * -- stage 2 tables |
| * length determined by top of stage 1 and bottom of stage 3 tables |
| * if(outputType==MBCS_OUTPUT_1) { |
| * -- SBCS: pure indexes |
| * uint16_t stage 2 indexes[?]; |
| * } else { |
| * -- DBCS, MBCS, EBCDIC_STATEFUL, ...: roundtrip flags and indexes |
| * uint32_t stage 2 flags and indexes[?]; |
| * } |
| * |
| * -- stage 3 tables with byte results |
| * if(outputType==MBCS_OUTPUT_1) { |
| * -- SBCS: each 16-bit result contains flags and the result byte, see ucnvmbcs.c |
| * uint16_t fromUBytes[fromUBytesLength/2]; |
| * } else { |
| * -- DBCS, MBCS, EBCDIC_STATEFUL, ... 2/3/4 bytes result, see ucnvmbcs.c |
| * uint8_t fromUBytes[fromUBytesLength]; or |
| * uint16_t fromUBytes[fromUBytesLength/2]; or |
| * uint32_t fromUBytes[fromUBytesLength/4]; |
| * } |
| * } |
| * |
| * -- extension table, details see ucnv_ext.h |
| * int32_t indexes[>=32]; ... |
| */ |
| /* |
| * ucnv_ext.h |
| * |
| * See icuhtml/design/conversion/conversion_extensions.html |
| * |
| * Conversion extensions serve two purposes: |
| * 1. They support m:n mappings. |
| * 2. They support extension-only conversion files that are used together |
| * with the regular conversion data in base files. |
| * |
| * A base file may contain an extension table (explicitly requested or |
| * implicitly generated for m:n mappings), but its extension table is not |
| * used when an extension-only file is used. |
| * |
| * It is an error if a base file contains any regular (not extension) mapping |
| * from the same sequence as a mapping in the extension file |
| * because the base mapping would hide the extension mapping. |
| * |
| * |
| * Data for conversion extensions: |
| * |
| * One set of data structures per conversion direction (to/from Unicode). |
| * The data structures are sorted by input units to allow for binary search. |
| * Input sequences of more than one unit are handled like contraction tables |
| * in collation: |
| * The lookup value of a unit points to another table that is to be searched |
| * for the next unit, recursively. |
| * |
| * For conversion from Unicode, the initial code point is looked up in |
| * a 3-stage trie for speed, |
| * with an additional table of unique results to save space. |
| * |
| * Long output strings are stored in separate arrays, with length and index |
| * in the lookup tables. |
| * Output results also include a flag distinguishing roundtrip from |
| * (reverse) fallback mappings. |
| * |
| * Input Unicode strings must not begin or end with unpaired surrogates |
| * to avoid problems with matches on parts of surrogate pairs. |
| * |
| * Mappings from multiple characters (code points or codepage state |
| * table sequences) must be searched preferring the longest match. |
| * For this to work and be efficient, the variable-width table must contain |
| * all mappings that contain prefixes of the multiple characters. |
| * If an extension table is built on top of a base table in another file |
| * and a base table entry is a prefix of a multi-character mapping, then |
| * this is an error. |
| * |
| * |
| * Implementation note: |
| * |
| * Currently, the parser and several checks in the code limit the number |
| * of UChars or bytes in a mapping to |
| * UCNV_EXT_MAX_UCHARS and UCNV_EXT_MAX_BYTES, respectively, |
| * which are output value limits in the data structure. |
| * |
| * For input, this is not strictly necessary - it is a hard limit only for the |
| * buffers in UConverter that are used to store partial matches. |
| * |
| * Input sequences could otherwise be arbitrarily long if partial matches |
| * need not be stored (i.e., if a sequence does not span several buffers with too |
| * many units before the last buffer), although then results would differ |
| * depending on whether partial matches exceed the limits or not, |
| * which depends on the pattern of buffer sizes. |
| * |
| * |
| * Data structure: |
| * |
| * int32_t indexes[>=32]; |
| * |
| * Array of indexes and lengths etc. The length of the array is at least 32. |
| * The actual length is stored in indexes[0] to be forward compatible. |
| * |
| * Each index to another array is the number of bytes from indexes[]. |
| * Each length of an array is the number of array base units in that array. |
| * |
| * Some of the structures may not be present, in which case their indexes |
| * and lengths are 0. |
| * |
| * Usage of indexes[i]: |
| * [0] length of indexes[] |
| * |
| * // to Unicode table |
| * [1] index of toUTable[] (array of uint32_t) |
| * [2] length of toUTable[] |
| * [3] index of toUUChars[] (array of UChar) |
| * [4] length of toUUChars[] |
| * |
| * // from Unicode table, not for the initial code point |
| * [5] index of fromUTableUChars[] (array of UChar) |
| * [6] index of fromUTableValues[] (array of uint32_t) |
| * [7] length of fromUTableUChars[] and fromUTableValues[] |
| * [8] index of fromUBytes[] (array of char) |
| * [9] length of fromUBytes[] |
| * |
| * // from Unicode trie for initial-code point lookup |
| * [10] index of fromUStage12[] (combined array of uint16_t for stages 1 & 2) |
| * [11] length of stage 1 portion of fromUStage12[] |
| * [12] length of fromUStage12[] |
| * [13] index of fromUStage3[] (array of uint16_t indexes into fromUStage3b[]) |
| * [14] length of fromUStage3[] |
| * [15] index of fromUStage3b[] (array of uint32_t like fromUTableValues[]) |
| * [16] length of fromUStage3b[] |
| * |
| * [17] Bit field containing numbers of bytes: |
| * 31..24 reserved, 0 |
| * 23..16 maximum input bytes |
| * 15.. 8 maximum output bytes |
| * 7.. 0 maximum bytes per UChar |
| * |
| * [18] Bit field containing numbers of UChars: |
| * 31..24 reserved, 0 |
| * 23..16 maximum input UChars |
| * 15.. 8 maximum output UChars |
| * 7.. 0 maximum UChars per byte |
| * |
| * [19] Bit field containing flags: |
| * (extension table unicodeMask) |
| * 1 UCNV_HAS_SURROGATES flag for the extension table |
| * 0 UCNV_HAS_SUPPLEMENTARY flag for the extension table |
| * |
| * [20]..[30] reserved, 0 |
| * [31] number of bytes for the entire extension structure |
| * [>31] reserved; there are indexes[0] indexes |
| * |
| * |
| * uint32_t toUTable[]; |
| * |
| * Array of byte/value pairs for lookups for toUnicode conversion. |
| * The array is partitioned into sections like collation contraction tables. |
| * Each section contains one word with the number of following words and |
| * a default value for when the lookup in this section yields no match. |
| * |
| * A section is sorted in ascending order of input bytes, |
| * allowing for fast linear or binary searches. |
| * The builder may store entries for a contiguous range of byte values |
| * (compare difference between the first and last one with count), |
| * which then allows for direct array access. |
| * The builder should always do this for the initial table section. |
| * |
| * Entries may have 0 values, see below. |
| * No two entries in a section have the same byte values. |
| * |
| * Each uint32_t contains an input byte value in bits 31..24 and the |
| * corresponding lookup value in bits 23..0. |
| * Interpret the value as follows: |
| * if(value==0) { |
| * no match, see below |
| * } else if(value<0x1f0000) { |
| * partial match - use value as index to the next toUTable section |
| * and match the next unit; (value indexes toUTable[value]) |
| * } else { |
| * if(bit 23 set) { |
| * roundtrip; |
| * } else { |
| * fallback; |
| * } |
| * unset value bit 23; |
| * if(value<=0x2fffff) { |
| * (value-0x1f0000) is a code point; (BMP: value<=0x1fffff) |
| * } else { |
| * bits 17..0 (value&0x3ffff) is an index to |
| * the result UChars in toUUChars[]; (0 indexes toUUChars[0]) |
| * length of the result=((value>>18)-12); (length=0..19) |
| * } |
| * } |
| * |
| * The first word in a section contains the number of following words in the |
| * input byte position (bits 31..24, number=1..0xff). |
| * The value of the initial word is used when the current byte is not found |
| * in this section. |
| * If the value is not 0, then it represents a result as above. |
| * If the value is 0, then the search has to return a shorter match with an |
| * earlier default value as the result, or result in "unmappable" even for the |
| * initial bytes. |
| * If the value is 0 for the initial toUTable entry, then the initial byte |
| * does not start any mapping input. |
| * |
| * |
| * UChar toUUChars[]; |
| * |
| * Contains toUnicode mapping results, stored as sequences of UChars. |
| * Indexes and lengths stored in the toUTable[]. |
| * |
| * |
| * UChar fromUTableUChars[]; |
| * uint32_t fromUTableValues[]; |
| * |
| * The fromUTable is split into two arrays, but works otherwise much like |
| * the toUTable. The array is partitioned into sections like collation |
| * contraction tables and toUTable. |
| * A row in the table consists of same-index entries in fromUTableUChars[] |
| * and fromUTableValues[]. |
| * |
| * Interpret a value as follows: |
| * if(value==0) { |
| * no match, see below |
| * } else if(value<=0xffffff) { (bits 31..24 are 0) |
| * partial match - use value as index to the next fromUTable section |
| * and match the next unit; (value indexes fromUTable[value]) |
| * } else { |
| * if(value==0x80000001) { |
| * return no mapping, but request for <subchar1>; |
| * } |
| * if(bit 31 set) { |
| * roundtrip; |
| * } else { |
| * fallback; |
| * } |
| * // bits 30..29 reserved, 0 |
| * length=(value>>24)&0x1f; (bits 28..24) |
| * if(length==1..3) { |
| * bits 23..0 contain 1..3 bytes, padded with 00s on the left; |
| * } else { |
| * bits 23..0 (value&0xffffff) is an index to |
| * the result bytes in fromUBytes[]; (0 indexes fromUBytes[0]) |
| * } |
| * } |
| * |
| * The first pair in a section contains the number of following pairs in the |
| * UChar position (16 bits, number=1..0xffff). |
| * The value of the initial pair is used when the current UChar is not found |
| * in this section. |
| * If the value is not 0, then it represents a result as above. |
| * If the value is 0, then the search has to return a shorter match with an |
| * earlier default value as the result, or result in "unmappable" even for the |
| * initial UChars. |
| * |
| * If the from Unicode trie is present, then the from Unicode search tables |
| * are not used for initial code points. |
| * In this case, the first entries (index 0) in the tables are not used |
| * (reserved, set to 0) because a value of 0 is used in trie results |
| * to indicate no mapping. |
| * |
| * |
| * uint16_t fromUStage12[]; |
| * |
| * Stages 1 & 2 of a trie that maps an initial code point. |
| * Indexes in stage 1 are all offset by the length of stage 1 so that the |
| * same array pointer can be used for both stages. |
| * If (c>>10)>=(length of stage 1) then c does not start any mapping. |
| * Same bit distribution as for regular conversion tries. |
| * |
| * |
| * uint16_t fromUStage3[]; |
| * uint32_t fromUStage3b[]; |
| * |
| * Stage 3 of the trie. The first array simply contains indexes to the second, |
| * which contains words in the same format as fromUTableValues[]. |
| * Use a stage 3 granularity of 4, which allows for 256k stage 3 entries, |
| * and 16-bit entries in stage 3 allow for 64k stage 3b entries. |
| * The stage 3 granularity means that the stage 2 entry needs to be left-shifted. |
| * |
| * Two arrays are used because it is expected that more than half of the stage 3 |
| * entries will be zero. The 16-bit index stage 3 array saves space even |
| * considering storing a total of 6 bytes per non-zero entry in both arrays |
| * together. |
| * Using a stage 3 granularity of >1 diminishes the compactability in that stage |
| * but provides a larger effective addressing space in stage 2. |
| * All but the final result stage use 16-bit entries to save space. |
| * |
| * fromUStage3b[] contains a zero for "no mapping" at its index 0, |
| * and may contain UCNV_EXT_FROM_U_SUBCHAR1 at index 1 for "<subchar1> SUB mapping" |
| * (i.e., "no mapping" with preference for <subchar1> rather than <subchar>), |
| * and all other items are unique non-zero results. |
| * |
| * The default value of a fromUTableValues[] section that is referenced |
| * _directly_ from a fromUStage3b[] item may also be UCNV_EXT_FROM_U_SUBCHAR1, |
| * but this value must not occur anywhere else in fromUTableValues[] |
| * because "no mapping" is always a property of a single code point, |
| * never of multiple. |
| * |
| * |
| * char fromUBytes[]; |
| * |
| * Contains fromUnicode mapping results, stored as sequences of chars. |
| * Indexes and lengths stored in the fromUTableValues[]. |
| */ |
| |
| final class UConverterDataReader { |
| //private final static boolean debug = ICUDebug.enabled("UConverterDataReader"); |
| |
| private static final class IsAcceptable implements ICUBinary.Authenticate { |
| // @Override when we switch to Java 6 |
| public boolean isDataVersionAcceptable(byte formatVersion[]) { |
| return formatVersion[0] == 6; |
| } |
| } |
| private static final IsAcceptable IS_ACCEPTABLE = new IsAcceptable(); |
| |
| /* |
| * UConverterDataReader(UConverterDataReader r) |
| { |
| byteBuffer = ICUBinary.getByteBufferFromInputStreamAndCloseStream(r.byteBuffer); |
| unicodeVersion = r.unicodeVersion; |
| } |
| */ |
| /** The buffer position after the static data. */ |
| private int posAfterStaticData; |
| |
| /** |
| * <p>Protected constructor.</p> |
| * @param bytes ICU conversion data file |
| * @exception IOException throw if data file fails authentication |
| */ |
| protected UConverterDataReader(ByteBuffer bytes) |
| throws IOException{ |
| //if(debug) System.out.println("Bytes in buffer " + bytes.remaining()); |
| |
| byteBuffer = bytes; |
| /*unicodeVersion = */ICUBinary.readHeader(byteBuffer, DATA_FORMAT_ID, IS_ACCEPTABLE); |
| |
| //if(debug) System.out.println("Bytes left in byteBuffer " + byteBuffer.remaining()); |
| } |
| |
| // protected methods ------------------------------------------------- |
| |
| protected void readStaticData(UConverterStaticData sd) throws IOException |
| { |
| sd.structSize = byteBuffer.getInt(); |
| byte[] name = new byte[UConverterConstants.MAX_CONVERTER_NAME_LENGTH]; |
| byteBuffer.get(name); |
| sd.name = new String(name, "US-ASCII"); |
| sd.codepage = byteBuffer.getInt(); |
| sd.platform = byteBuffer.get(); |
| sd.conversionType = byteBuffer.get(); |
| sd.minBytesPerChar = byteBuffer.get(); |
| sd.maxBytesPerChar = byteBuffer.get(); |
| byteBuffer.get(sd.subChar); |
| sd.subCharLen = byteBuffer.get(); |
| sd.hasToUnicodeFallback = byteBuffer.get(); |
| sd.hasFromUnicodeFallback = byteBuffer.get(); |
| sd.unicodeMask = (short)(byteBuffer.get() & 0xff); |
| sd.subChar1 = byteBuffer.get(); |
| byteBuffer.get(sd.reserved); |
| posAfterStaticData = byteBuffer.position(); |
| } |
| |
| int bytesReadAfterStaticData() { |
| return byteBuffer.position() - posAfterStaticData; |
| } |
| |
| protected void readMBCSHeader(CharsetMBCS.MBCSHeader h) throws IOException |
| { |
| byteBuffer.get(h.version); |
| h.countStates = byteBuffer.getInt(); |
| h.countToUFallbacks = byteBuffer.getInt(); |
| h.offsetToUCodeUnits = byteBuffer.getInt(); |
| h.offsetFromUTable = byteBuffer.getInt(); |
| h.offsetFromUBytes = byteBuffer.getInt(); |
| h.flags = byteBuffer.getInt(); |
| h.fromUBytesLength = byteBuffer.getInt(); |
| if (h.version[0] == 5 && h.version[1] >= 3) { |
| h.options = byteBuffer.getInt(); |
| if ((h.options & CharsetMBCS.MBCS_OPT_NO_FROM_U) != 0) { |
| h.fullStage2Length = byteBuffer.getInt(); |
| } |
| } |
| } |
| |
| protected void readMBCSTable(MBCSHeader header, UConverterMBCSTable mbcsTable) throws IOException |
| { |
| IntBuffer intBuffer = byteBuffer.asIntBuffer(); |
| mbcsTable.countStates = (byte) header.countStates; |
| mbcsTable.stateTable = new int[header.countStates][256]; |
| int i; |
| for(i = 0; i < header.countStates; ++i) { |
| intBuffer.get(mbcsTable.stateTable[i]); |
| } |
| |
| mbcsTable.countToUFallbacks = header.countToUFallbacks; |
| mbcsTable.toUFallbacks = new MBCSToUFallback[header.countToUFallbacks]; |
| for(i = 0; i < header.countToUFallbacks; ++i) { |
| int offset = intBuffer.get(); |
| int codePoint = intBuffer.get(); |
| mbcsTable.toUFallbacks[i] = new MBCSToUFallback(offset, codePoint); |
| } |
| // Skip as many bytes as we have read from the IntBuffer. |
| int length = intBuffer.position() * 4; |
| ICUBinary.skipBytes(byteBuffer, length); |
| |
| // Consider leaving some large arrays as CharBuffer/IntBuffer rather than |
| // reading them into Java arrays, to reduce initialization time and memory usage, |
| // at the cost of some performance. |
| // For example: unicodeCodeUnits, fromUnicodeTable, fromUnicodeInts. |
| // Take care not to modify the buffer contents for swaplfnl. |
| CharBuffer charBuffer = byteBuffer.asCharBuffer(); |
| length = header.offsetFromUTable - header.offsetToUCodeUnits; |
| assert (length & 1) == 0; |
| mbcsTable.unicodeCodeUnits = new char[length / 2]; |
| charBuffer.get(mbcsTable.unicodeCodeUnits); |
| // Skip as many bytes as we have read from the CharBuffer. |
| ICUBinary.skipBytes(byteBuffer, length); |
| |
| length = header.offsetFromUBytes - header.offsetFromUTable; |
| assert (length & 1) == 0; |
| int fromUTableCharsLength; |
| if (mbcsTable.outputType == CharsetMBCS.MBCS_OUTPUT_1) { |
| // single-byte table stage1 + stage2 |
| fromUTableCharsLength = length / 2; |
| } else if (mbcsTable.hasSupplementary()) { |
| // stage1 for Unicode limit 0x110000 >> 10 |
| fromUTableCharsLength = 0x440; |
| } else { |
| // stage1 for BMP limit 0x10000 >> 10 |
| fromUTableCharsLength = 0x40; |
| } |
| mbcsTable.fromUnicodeTable = new char[fromUTableCharsLength]; |
| charBuffer.get(mbcsTable.fromUnicodeTable); |
| if (mbcsTable.outputType != CharsetMBCS.MBCS_OUTPUT_1) { |
| // Read both stage1 and stage2 together into an int[] array. |
| // Keeping the short stage1 in the array avoids offsetting at runtime. |
| // The stage1 part of this array will not be used. |
| assert (length & 3) == 0; |
| mbcsTable.fromUnicodeTableInts = new int[length / 4]; |
| byteBuffer.asIntBuffer().get(mbcsTable.fromUnicodeTableInts); |
| } |
| // Skip as many bytes as are in stage1 + stage2. |
| ICUBinary.skipBytes(byteBuffer, length); |
| |
| mbcsTable.fromUBytesLength = header.fromUBytesLength; |
| boolean noFromU = ((header.options & CharsetMBCS.MBCS_OPT_NO_FROM_U) != 0); |
| if (!noFromU) { |
| switch (mbcsTable.outputType) { |
| case CharsetMBCS.MBCS_OUTPUT_1: |
| case CharsetMBCS.MBCS_OUTPUT_2: |
| case CharsetMBCS.MBCS_OUTPUT_2_SISO: |
| case CharsetMBCS.MBCS_OUTPUT_3_EUC: |
| mbcsTable.fromUnicodeChars = new char[header.fromUBytesLength / 2]; |
| byteBuffer.asCharBuffer().get(mbcsTable.fromUnicodeChars); |
| ICUBinary.skipBytes(byteBuffer, header.fromUBytesLength & ~1); |
| break; |
| case CharsetMBCS.MBCS_OUTPUT_3: |
| case CharsetMBCS.MBCS_OUTPUT_4_EUC: |
| mbcsTable.fromUnicodeBytes = new byte[header.fromUBytesLength]; |
| byteBuffer.get(mbcsTable.fromUnicodeBytes); |
| break; |
| case CharsetMBCS.MBCS_OUTPUT_4: |
| mbcsTable.fromUnicodeInts = new int[header.fromUBytesLength / 4]; |
| byteBuffer.asIntBuffer().get(mbcsTable.fromUnicodeInts); |
| ICUBinary.skipBytes(byteBuffer, header.fromUBytesLength & ~3); |
| break; |
| default: |
| // Cannot occur, caller checked already. |
| assert false; |
| } |
| } else { |
| // Optional utf8Friendly mbcsIndex -- _MBCSHeader.version 4.3 (ICU 3.8) and higher. |
| // Needed for reconstituting omitted data. |
| mbcsTable.mbcsIndex = byteBuffer.asCharBuffer(); |
| } |
| } |
| |
| protected String readBaseTableName() throws IOException |
| { |
| char c; |
| StringBuilder name = new StringBuilder(); |
| while((c = (char)byteBuffer.get()) != 0){ |
| name.append(c); |
| } |
| return name.toString(); |
| } |
| |
| //protected int[] readExtIndexes(int skip) throws IOException |
| protected ByteBuffer readExtIndexes(int skip) throws IOException, InvalidFormatException |
| { |
| ICUBinary.skipBytes(byteBuffer, skip); |
| ByteBuffer b = ICUBinary.sliceWithOrder(byteBuffer); |
| int lengthOfIndexes = b.getInt(0); |
| if (lengthOfIndexes < 32) { |
| throw new InvalidFormatException(); |
| } |
| int numBytesExtensionStructure = b.getInt(31 * 4); |
| b.limit(numBytesExtensionStructure); |
| ICUBinary.skipBytes(byteBuffer, numBytesExtensionStructure); |
| return b; |
| } |
| |
| /** |
| * Data formatVersion 6.1 and higher has a unicodeMask. |
| */ |
| boolean dataFormatHasUnicodeMask() { |
| int formatVersion0 = byteBuffer.get(16) & 0xff; |
| return formatVersion0 > 6 || (formatVersion0 == 6 && byteBuffer.get(17) != 0); |
| } |
| |
| // private data members ------------------------------------------------- |
| |
| /** |
| * ICU data file input stream |
| */ |
| private ByteBuffer byteBuffer; |
| |
| // private VersionInfo unicodeVersion; |
| |
| /** |
| * File format version that this class understands. |
| * No guarantees are made if a older version is used |
| * see store.c of gennorm for more information and values |
| */ |
| // DATA_FORMAT_ID_ values taken from icu4c isCnvAcceptable (ucnv_bld.c) |
| private static final int DATA_FORMAT_ID = 0x636e7674; // dataFormat="cnvt" |
| } |