From: Nick Burch Date: Tue, 1 Sep 2015 19:17:40 +0000 (+0000) Subject: Fix inconsistent indent/whitespace X-Git-Tag: REL_3_13_FINAL~56 X-Git-Url: https://source.dussan.org/?a=commitdiff_plain;h=97a530aa6e14fe9f621112ea24a14c73cf82003e;p=poi.git Fix inconsistent indent/whitespace git-svn-id: https://svn.apache.org/repos/asf/poi/trunk@1700647 13f79535-47bb-0310-9956-ffa450edef68 --- diff --git a/src/java/org/apache/poi/util/StringUtil.java b/src/java/org/apache/poi/util/StringUtil.java index ccf226f0fb..d6597a9e6d 100644 --- a/src/java/org/apache/poi/util/StringUtil.java +++ b/src/java/org/apache/poi/util/StringUtil.java @@ -33,160 +33,159 @@ import org.apache.poi.hssf.record.RecordInputStream; * For such functionality, consider using {@link RecordInputStream} */ public class StringUtil { - protected static final Charset ISO_8859_1 = Charset.forName("ISO-8859-1"); - protected static final Charset UTF16LE = Charset.forName("UTF-16LE"); - public static final Charset UTF8 = Charset.forName("UTF-8"); - + protected static final Charset ISO_8859_1 = Charset.forName("ISO-8859-1"); + protected static final Charset UTF16LE = Charset.forName("UTF-16LE"); + public static final Charset UTF8 = Charset.forName("UTF-8"); + private static Map msCodepointToUnicode; - private StringUtil() { - // no instances of this class - } + private StringUtil() { + // no instances of this class + } - /** - * Given a byte array of 16-bit unicode characters in Little Endian - * format (most important byte last), return a Java String representation - * of it. - * - * { 0x16, 0x00 } -0x16 - * - * @param string the byte array to be converted - * @param offset the initial offset into the - * byte array. it is assumed that string[ offset ] and string[ offset + - * 1 ] contain the first 16-bit unicode character + /** + * Given a byte array of 16-bit unicode characters in Little Endian + * format (most important byte last), return a Java String representation + * of it. + * + * { 0x16, 0x00 } -0x16 + * + * @param string the byte array to be converted + * @param offset the initial offset into the + * byte array. it is assumed that string[ offset ] and string[ offset + + * 1 ] contain the first 16-bit unicode character * @param len the length of the final string - * @return the converted string, never null. - * @exception ArrayIndexOutOfBoundsException if offset is out of bounds for - * the byte array (i.e., is negative or is greater than or equal to - * string.length) - * @exception IllegalArgumentException if len is too large (i.e., - * there is not enough data in string to create a String of that - * length) - */ - public static String getFromUnicodeLE( - final byte[] string, - final int offset, - final int len) - throws ArrayIndexOutOfBoundsException, IllegalArgumentException { - if ((offset < 0) || (offset >= string.length)) { - throw new ArrayIndexOutOfBoundsException("Illegal offset " + offset + " (String data is of length " + string.length + ")"); - } - if ((len < 0) || (((string.length - offset) / 2) < len)) { - throw new IllegalArgumentException("Illegal length " + len); - } + * @return the converted string, never null. + * @exception ArrayIndexOutOfBoundsException if offset is out of bounds for + * the byte array (i.e., is negative or is greater than or equal to + * string.length) + * @exception IllegalArgumentException if len is too large (i.e., + * there is not enough data in string to create a String of that + * length) + */ + public static String getFromUnicodeLE( + final byte[] string, + final int offset, + final int len) + throws ArrayIndexOutOfBoundsException, IllegalArgumentException { + if ((offset < 0) || (offset >= string.length)) { + throw new ArrayIndexOutOfBoundsException("Illegal offset " + offset + " (String data is of length " + string.length + ")"); + } + if ((len < 0) || (((string.length - offset) / 2) < len)) { + throw new IllegalArgumentException("Illegal length " + len); + } - return new String(string, offset, len * 2, UTF16LE); - } + return new String(string, offset, len * 2, UTF16LE); + } - /** - * Given a byte array of 16-bit unicode characters in little endian - * format (most important byte last), return a Java String representation - * of it. - * - * { 0x16, 0x00 } -0x16 - * - * @param string the byte array to be converted - * @return the converted string, never null - */ - public static String getFromUnicodeLE(byte[] string) { + /** + * Given a byte array of 16-bit unicode characters in little endian + * format (most important byte last), return a Java String representation + * of it. + * + * { 0x16, 0x00 } -0x16 + * + * @param string the byte array to be converted + * @return the converted string, never null + */ + public static String getFromUnicodeLE(byte[] string) { if(string.length == 0) { return ""; } return getFromUnicodeLE(string, 0, string.length / 2); - } - - /** - * Convert String to 16-bit unicode characters in little endian format - * - * @param string the string - * @return the byte array of 16-bit unicode characters - */ - public static byte[] getToUnicodeLE(String string) { - return string.getBytes(UTF16LE); - } + } - /** - * Read 8 bit data (in ISO-8859-1 codepage) into a (unicode) Java - * String and return. - * (In Excel terms, read compressed 8 bit unicode as a string) - * - * @param string byte array to read - * @param offset offset to read byte array - * @param len length to read byte array - * @return String generated String instance by reading byte array - */ - public static String getFromCompressedUnicode( - final byte[] string, - final int offset, - final int len) { - int len_to_use = Math.min(len, string.length - offset); - return new String(string, offset, len_to_use, ISO_8859_1); - } - - public static String readCompressedUnicode(LittleEndianInput in, int nChars) { - byte[] buf = new byte[nChars]; - in.readFully(buf); - return new String(buf, ISO_8859_1); - } - - /** - * InputStream in is expected to contain: - *
    - *
  1. ushort nChars
  2. - *
  3. byte is16BitFlag
  4. - *
  5. byte[]/char[] characterData
  6. - *
- * For this encoding, the is16BitFlag is always present even if nChars==0. - * - * This structure is also known as a XLUnicodeString. - */ - public static String readUnicodeString(LittleEndianInput in) { + /** + * Convert String to 16-bit unicode characters in little endian format + * + * @param string the string + * @return the byte array of 16-bit unicode characters + */ + public static byte[] getToUnicodeLE(String string) { + return string.getBytes(UTF16LE); + } - int nChars = in.readUShort(); - byte flag = in.readByte(); - if ((flag & 0x01) == 0) { - return readCompressedUnicode(in, nChars); - } - return readUnicodeLE(in, nChars); - } - /** - * InputStream in is expected to contain: - *
    - *
  1. byte is16BitFlag
  2. - *
  3. byte[]/char[] characterData
  4. - *
- * For this encoding, the is16BitFlag is always present even if nChars==0. - *
- * This method should be used when the nChars field is not stored - * as a ushort immediately before the is16BitFlag. Otherwise, {@link - * #readUnicodeString(LittleEndianInput)} can be used. - */ - public static String readUnicodeString(LittleEndianInput in, int nChars) { - byte is16Bit = in.readByte(); - if ((is16Bit & 0x01) == 0) { - return readCompressedUnicode(in, nChars); - } - return readUnicodeLE(in, nChars); - } - /** - * OutputStream out will get: - *
    - *
  1. ushort nChars
  2. - *
  3. byte is16BitFlag
  4. - *
  5. byte[]/char[] characterData
  6. - *
- * For this encoding, the is16BitFlag is always present even if nChars==0. - */ - public static void writeUnicodeString(LittleEndianOutput out, String value) { + /** + * Read 8 bit data (in ISO-8859-1 codepage) into a (unicode) Java + * String and return. + * (In Excel terms, read compressed 8 bit unicode as a string) + * + * @param string byte array to read + * @param offset offset to read byte array + * @param len length to read byte array + * @return String generated String instance by reading byte array + */ + public static String getFromCompressedUnicode( + final byte[] string, + final int offset, + final int len) { + int len_to_use = Math.min(len, string.length - offset); + return new String(string, offset, len_to_use, ISO_8859_1); + } - int nChars = value.length(); - out.writeShort(nChars); - boolean is16Bit = hasMultibyte(value); - out.writeByte(is16Bit ? 0x01 : 0x00); - if (is16Bit) { - putUnicodeLE(value, out); - } else { - putCompressedUnicode(value, out); - } - } + public static String readCompressedUnicode(LittleEndianInput in, int nChars) { + byte[] buf = new byte[nChars]; + in.readFully(buf); + return new String(buf, ISO_8859_1); + } + + /** + * InputStream in is expected to contain: + *
    + *
  1. ushort nChars
  2. + *
  3. byte is16BitFlag
  4. + *
  5. byte[]/char[] characterData
  6. + *
+ * For this encoding, the is16BitFlag is always present even if nChars==0. + * + * This structure is also known as a XLUnicodeString. + */ + public static String readUnicodeString(LittleEndianInput in) { + + int nChars = in.readUShort(); + byte flag = in.readByte(); + if ((flag & 0x01) == 0) { + return readCompressedUnicode(in, nChars); + } + return readUnicodeLE(in, nChars); + } + /** + * InputStream in is expected to contain: + *
    + *
  1. byte is16BitFlag
  2. + *
  3. byte[]/char[] characterData
  4. + *
+ * For this encoding, the is16BitFlag is always present even if nChars==0. + *
+ * This method should be used when the nChars field is not stored + * as a ushort immediately before the is16BitFlag. Otherwise, {@link + * #readUnicodeString(LittleEndianInput)} can be used. + */ + public static String readUnicodeString(LittleEndianInput in, int nChars) { + byte is16Bit = in.readByte(); + if ((is16Bit & 0x01) == 0) { + return readCompressedUnicode(in, nChars); + } + return readUnicodeLE(in, nChars); + } + /** + * OutputStream out will get: + *
    + *
  1. ushort nChars
  2. + *
  3. byte is16BitFlag
  4. + *
  5. byte[]/char[] characterData
  6. + *
+ * For this encoding, the is16BitFlag is always present even if nChars==0. + */ + public static void writeUnicodeString(LittleEndianOutput out, String value) { + int nChars = value.length(); + out.writeShort(nChars); + boolean is16Bit = hasMultibyte(value); + out.writeByte(is16Bit ? 0x01 : 0x00); + if (is16Bit) { + putUnicodeLE(value, out); + } else { + putCompressedUnicode(value, out); + } + } /** * OutputStream out will get: *