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package org.apache.commons.lang3; import java.util.UUID;

Static methods to convert a type into another, with endianness and bit ordering awareness.

The methods names follow a naming rule:
<source type>[source endianness][source bit ordering]To<destination type>[destination endianness][destination bit ordering]

Source/destination type fields is one of the following:

  • binary: an array of booleans
  • byte or byteArray
  • int or intArray
  • long or longArray
  • hex: a String containing hexadecimal digits (lowercase in destination)
  • hexDigit: a Char containing a hexadecimal digit (lowercase in destination)
  • uuid

Endianness field: little endian is the default, in this case the field is absent. In case of big endian, the field is "Be".
Bit ordering: Lsb0 is the default, in this case the field is absent. In case of Msb0, the field is "Msb0".

Example: intBeMsb0ToHex convert an int with big endian byte order and Msb0 bit order into its hexadecimal string representation

Most of the methods provide only default encoding for destination, this limits the number of ways to do one thing. Unless you are dealing with data from/to outside of the JVM platform, you should not need to use "Be" and "Msb0" methods.

Development status: work on going, only a part of the little endian, Lsb0 methods implemented so far.

Since:Lang 3.2
/** * <p> * Static methods to convert a type into another, with endianness and bit ordering awareness. * </p> * <p> * The methods names follow a naming rule:<br> * {@code <source type>[source endianness][source bit ordering]To<destination type>[destination endianness][destination bit ordering]} * </p> * <p> * Source/destination type fields is one of the following: * </p> * <ul> * <li>binary: an array of booleans</li> * <li>byte or byteArray</li> * <li>int or intArray</li> * <li>long or longArray</li> * <li>hex: a String containing hexadecimal digits (lowercase in destination)</li> * <li>hexDigit: a Char containing a hexadecimal digit (lowercase in destination)</li> * <li>uuid</li> * </ul> * <p> * Endianness field: little endian is the default, in this case the field is absent. In case of * big endian, the field is "Be".<br> Bit ordering: Lsb0 is the default, in this case the field * is absent. In case of Msb0, the field is "Msb0". * </p> * <p> * Example: intBeMsb0ToHex convert an int with big endian byte order and Msb0 bit order into its * hexadecimal string representation * </p> * <p> * Most of the methods provide only default encoding for destination, this limits the number of * ways to do one thing. Unless you are dealing with data from/to outside of the JVM platform, * you should not need to use "Be" and "Msb0" methods. * </p> * <p> * Development status: work on going, only a part of the little endian, Lsb0 methods implemented * so far. * </p> * * @since Lang 3.2 */
public class Conversion { private static final boolean[] TTTT = new boolean[] { true, true, true, true }; private static final boolean[] FTTT = new boolean[] { false, true, true, true }; private static final boolean[] TFTT = new boolean[] { true, false, true, true }; private static final boolean[] FFTT = new boolean[] { false, false, true, true }; private static final boolean[] TTFT = new boolean[] { true, true, false, true }; private static final boolean[] FTFT = new boolean[] { false, true, false, true }; private static final boolean[] TFFT = new boolean[] { true, false, false, true }; private static final boolean[] FFFT = new boolean[] { false, false, false, true }; private static final boolean[] TTTF = new boolean[] { true, true, true, false }; private static final boolean[] FTTF = new boolean[] { false, true, true, false }; private static final boolean[] TFTF = new boolean[] { true, false, true, false }; private static final boolean[] FFTF = new boolean[] { false, false, true, false }; private static final boolean[] TTFF = new boolean[] { true, true, false, false }; private static final boolean[] FTFF = new boolean[] { false, true, false, false }; private static final boolean[] TFFF = new boolean[] { true, false, false, false }; private static final boolean[] FFFF = new boolean[] { false, false, false, false };

Converts a hexadecimal digit into an int using the default (Lsb0) bit ordering.

'1' is converted to 1

Params:
  • hexDigit – the hexadecimal digit to convert
Throws:
Returns:an int equals to hexDigit
/** * <p> * Converts a hexadecimal digit into an int using the default (Lsb0) bit ordering. * </p> * <p> * '1' is converted to 1 * </p> * * @param hexDigit the hexadecimal digit to convert * @return an int equals to {@code hexDigit} * @throws IllegalArgumentException if {@code hexDigit} is not a hexadecimal digit */
public static int hexDigitToInt(final char hexDigit) { final int digit = Character.digit(hexDigit, 16); if (digit < 0) { throw new IllegalArgumentException("Cannot interpret '" + hexDigit + "' as a hexadecimal digit"); } return digit; }

Converts a hexadecimal digit into an int using the Msb0 bit ordering.

'1' is converted to 8

Params:
  • hexDigit – the hexadecimal digit to convert
Throws:
Returns:an int equals to hexDigit
/** * <p> * Converts a hexadecimal digit into an int using the Msb0 bit ordering. * </p> * <p> * '1' is converted to 8 * </p> * * @param hexDigit the hexadecimal digit to convert * @return an int equals to {@code hexDigit} * @throws IllegalArgumentException if {@code hexDigit} is not a hexadecimal digit */
public static int hexDigitMsb0ToInt(final char hexDigit) { switch (hexDigit) { case '0': return 0x0; case '1': return 0x8; case '2': return 0x4; case '3': return 0xC; case '4': return 0x2; case '5': return 0xA; case '6': return 0x6; case '7': return 0xE; case '8': return 0x1; case '9': return 0x9; case 'a':// fall through case 'A': return 0x5; case 'b':// fall through case 'B': return 0xD; case 'c':// fall through case 'C': return 0x3; case 'd':// fall through case 'D': return 0xB; case 'e':// fall through case 'E': return 0x7; case 'f':// fall through case 'F': return 0xF; default: throw new IllegalArgumentException("Cannot interpret '" + hexDigit + "' as a hexadecimal digit"); } }

Converts a hexadecimal digit into binary (represented as boolean array) using the default (Lsb0) bit ordering.

'1' is converted as follow: (1, 0, 0, 0)

Params:
  • hexDigit – the hexadecimal digit to convert
Throws:
Returns:a boolean array with the binary representation of hexDigit
/** * <p> * Converts a hexadecimal digit into binary (represented as boolean array) using the default * (Lsb0) bit ordering. * </p> * <p> * '1' is converted as follow: (1, 0, 0, 0) * </p> * * @param hexDigit the hexadecimal digit to convert * @return a boolean array with the binary representation of {@code hexDigit} * @throws IllegalArgumentException if {@code hexDigit} is not a hexadecimal digit */
public static boolean[] hexDigitToBinary(final char hexDigit) { switch (hexDigit) { case '0': return FFFF.clone(); case '1': return TFFF.clone(); case '2': return FTFF.clone(); case '3': return TTFF.clone(); case '4': return FFTF.clone(); case '5': return TFTF.clone(); case '6': return FTTF.clone(); case '7': return TTTF.clone(); case '8': return FFFT.clone(); case '9': return TFFT.clone(); case 'a':// fall through case 'A': return FTFT.clone(); case 'b':// fall through case 'B': return TTFT.clone(); case 'c':// fall through case 'C': return FFTT.clone(); case 'd':// fall through case 'D': return TFTT.clone(); case 'e':// fall through case 'E': return FTTT.clone(); case 'f':// fall through case 'F': return TTTT.clone(); default: throw new IllegalArgumentException("Cannot interpret '" + hexDigit + "' as a hexadecimal digit"); } }

Converts a hexadecimal digit into binary (represented as boolean array) using the Msb0 bit ordering.

'1' is converted as follow: (0, 0, 0, 1)

Params:
  • hexDigit – the hexadecimal digit to convert
Throws:
Returns:a boolean array with the binary representation of hexDigit
/** * <p> * Converts a hexadecimal digit into binary (represented as boolean array) using the Msb0 * bit ordering. * </p> * <p> * '1' is converted as follow: (0, 0, 0, 1) * </p> * * @param hexDigit the hexadecimal digit to convert * @return a boolean array with the binary representation of {@code hexDigit} * @throws IllegalArgumentException if {@code hexDigit} is not a hexadecimal digit */
public static boolean[] hexDigitMsb0ToBinary(final char hexDigit) { switch (hexDigit) { case '0': return FFFF.clone(); case '1': return FFFT.clone(); case '2': return FFTF.clone(); case '3': return FFTT.clone(); case '4': return FTFF.clone(); case '5': return FTFT.clone(); case '6': return FTTF.clone(); case '7': return FTTT.clone(); case '8': return TFFF.clone(); case '9': return TFFT.clone(); case 'a':// fall through case 'A': return TFTF.clone(); case 'b':// fall through case 'B': return TFTT.clone(); case 'c':// fall through case 'C': return TTFF.clone(); case 'd':// fall through case 'D': return TTFT.clone(); case 'e':// fall through case 'E': return TTTF.clone(); case 'f':// fall through case 'F': return TTTT.clone(); default: throw new IllegalArgumentException("Cannot interpret '" + hexDigit + "' as a hexadecimal digit"); } }

Converts binary (represented as boolean array) to a hexadecimal digit using the default (Lsb0) bit ordering.

(1, 0, 0, 0) is converted as follow: '1'

Params:
  • src – the binary to convert
Throws:
Returns:a hexadecimal digit representing the selected bits
/** * <p> * Converts binary (represented as boolean array) to a hexadecimal digit using the default * (Lsb0) bit ordering. * </p> * <p> * (1, 0, 0, 0) is converted as follow: '1' * </p> * * @param src the binary to convert * @return a hexadecimal digit representing the selected bits * @throws IllegalArgumentException if {@code src} is empty * @throws NullPointerException if {@code src} is {@code null} */
public static char binaryToHexDigit(final boolean[] src) { return binaryToHexDigit(src, 0); }

Converts binary (represented as boolean array) to a hexadecimal digit using the default (Lsb0) bit ordering.

(1, 0, 0, 0) is converted as follow: '1'

Params:
  • src – the binary to convert
  • srcPos – the position of the lsb to start the conversion
Throws:
Returns:a hexadecimal digit representing the selected bits
/** * <p> * Converts binary (represented as boolean array) to a hexadecimal digit using the default * (Lsb0) bit ordering. * </p> * <p> * (1, 0, 0, 0) is converted as follow: '1' * </p> * * @param src the binary to convert * @param srcPos the position of the lsb to start the conversion * @return a hexadecimal digit representing the selected bits * @throws IllegalArgumentException if {@code src} is empty * @throws NullPointerException if {@code src} is {@code null} */
public static char binaryToHexDigit(final boolean[] src, final int srcPos) { if (src.length == 0) { throw new IllegalArgumentException("Cannot convert an empty array."); } if (src.length > srcPos + 3 && src[srcPos + 3]) { if (src.length > srcPos + 2 && src[srcPos + 2]) { if (src.length > srcPos + 1 && src[srcPos + 1]) { return src[srcPos] ? 'f' : 'e'; } return src[srcPos] ? 'd' : 'c'; } if (src.length > srcPos + 1 && src[srcPos + 1]) { return src[srcPos] ? 'b' : 'a'; } return src[srcPos] ? '9' : '8'; } if (src.length > srcPos + 2 && src[srcPos + 2]) { if (src.length > srcPos + 1 && src[srcPos + 1]) { return src[srcPos] ? '7' : '6'; } return src[srcPos] ? '5' : '4'; } if (src.length > srcPos + 1 && src[srcPos + 1]) { return src[srcPos] ? '3' : '2'; } return src[srcPos] ? '1' : '0'; }

Converts binary (represented as boolean array) to a hexadecimal digit using the Msb0 bit ordering.

(1, 0, 0, 0) is converted as follow: '8'

Params:
  • src – the binary to convert
Throws:
Returns:a hexadecimal digit representing the selected bits
/** * <p> * Converts binary (represented as boolean array) to a hexadecimal digit using the Msb0 bit * ordering. * </p> * <p> * (1, 0, 0, 0) is converted as follow: '8' * </p> * * @param src the binary to convert * @return a hexadecimal digit representing the selected bits * @throws IllegalArgumentException if {@code src} is empty, {@code src.length < 4} or * {@code src.length > 8} * @throws NullPointerException if {@code src} is {@code null} */
public static char binaryToHexDigitMsb0_4bits(final boolean[] src) { return binaryToHexDigitMsb0_4bits(src, 0); }

Converts binary (represented as boolean array) to a hexadecimal digit using the Msb0 bit ordering.

(1, 0, 0, 0) is converted as follow: '8' (1,0,0,1,1,0,1,0) with srcPos = 3 is converted to 'D'

Params:
  • src – the binary to convert
  • srcPos – the position of the lsb to start the conversion
Throws:
Returns:a hexadecimal digit representing the selected bits
/** * <p> * Converts binary (represented as boolean array) to a hexadecimal digit using the Msb0 bit * ordering. * </p> * <p> * (1, 0, 0, 0) is converted as follow: '8' (1,0,0,1,1,0,1,0) with srcPos = 3 is converted * to 'D' * </p> * * @param src the binary to convert * @param srcPos the position of the lsb to start the conversion * @return a hexadecimal digit representing the selected bits * @throws IllegalArgumentException if {@code src} is empty, {@code src.length > 8} or * {@code src.length - srcPos < 4} * @throws NullPointerException if {@code src} is {@code null} */
public static char binaryToHexDigitMsb0_4bits(final boolean[] src, final int srcPos) { if (src.length > 8) { throw new IllegalArgumentException("src.length>8: src.length=" + src.length); } if (src.length - srcPos < 4) { throw new IllegalArgumentException("src.length-srcPos<4: src.length=" + src.length + ", srcPos=" + srcPos); } if (src[srcPos + 3]) { if (src[srcPos + 2]) { if (src[srcPos + 1]) { return src[srcPos] ? 'f' : '7'; } return src[srcPos] ? 'b' : '3'; } if (src[srcPos + 1]) { return src[srcPos] ? 'd' : '5'; } return src[srcPos] ? '9' : '1'; } if (src[srcPos + 2]) { if (src[srcPos + 1]) { return src[srcPos] ? 'e' : '6'; } return src[srcPos] ? 'a' : '2'; } if (src[srcPos + 1]) { return src[srcPos] ? 'c' : '4'; } return src[srcPos] ? '8' : '0'; }

Converts the first 4 bits of a binary (represented as boolean array) in big endian Msb0 bit ordering to a hexadecimal digit.

(1, 0, 0, 0) is converted as follow: '8' (1,0,0,0,0,0,0,0, 0,0,0,0,0,1,0,0) is converted to '4'

Params:
  • src – the binary to convert
Throws:
Returns:a hexadecimal digit representing the selected bits
/** * <p> * Converts the first 4 bits of a binary (represented as boolean array) in big endian Msb0 * bit ordering to a hexadecimal digit. * </p> * <p> * (1, 0, 0, 0) is converted as follow: '8' (1,0,0,0,0,0,0,0, 0,0,0,0,0,1,0,0) is converted * to '4' * </p> * * @param src the binary to convert * @return a hexadecimal digit representing the selected bits * @throws IllegalArgumentException if {@code src} is empty * @throws NullPointerException if {@code src} is {@code null} */
public static char binaryBeMsb0ToHexDigit(final boolean[] src) { return binaryBeMsb0ToHexDigit(src, 0); }

Converts a binary (represented as boolean array) in big endian Msb0 bit ordering to a hexadecimal digit.

(1, 0, 0, 0) with srcPos = 0 is converted as follow: '8' (1,0,0,0,0,0,0,0, 0,0,0,1,0,1,0,0) with srcPos = 2 is converted to '5'

Params:
  • src – the binary to convert
  • srcPos – the position of the lsb to start the conversion
Throws:
Returns:a hexadecimal digit representing the selected bits
/** * <p> * Converts a binary (represented as boolean array) in big endian Msb0 bit ordering to a * hexadecimal digit. * </p> * <p> * (1, 0, 0, 0) with srcPos = 0 is converted as follow: '8' (1,0,0,0,0,0,0,0, * 0,0,0,1,0,1,0,0) with srcPos = 2 is converted to '5' * </p> * * @param src the binary to convert * @param srcPos the position of the lsb to start the conversion * @return a hexadecimal digit representing the selected bits * @throws IllegalArgumentException if {@code src} is empty * @throws NullPointerException if {@code src} is {@code null} */
public static char binaryBeMsb0ToHexDigit(boolean[] src, int srcPos) { if (src.length == 0) { throw new IllegalArgumentException("Cannot convert an empty array."); } final int beSrcPos = src.length - 1 - srcPos; final int srcLen = Math.min(4, beSrcPos + 1); final boolean[] paddedSrc = new boolean[4]; System.arraycopy(src, beSrcPos + 1 - srcLen, paddedSrc, 4 - srcLen, srcLen); src = paddedSrc; srcPos = 0; if (src[srcPos]) { if (src.length > srcPos + 1 && src[srcPos + 1]) { if (src.length > srcPos + 2 && src[srcPos + 2]) { return src.length > srcPos + 3 && src[srcPos + 3] ? 'f' : 'e'; } return src.length > srcPos + 3 && src[srcPos + 3] ? 'd' : 'c'; } if (src.length > srcPos + 2 && src[srcPos + 2]) { return src.length > srcPos + 3 && src[srcPos + 3] ? 'b' : 'a'; } return src.length > srcPos + 3 && src[srcPos + 3] ? '9' : '8'; } if (src.length > srcPos + 1 && src[srcPos + 1]) { if (src.length > srcPos + 2 && src[srcPos + 2]) { return src.length > srcPos + 3 && src[srcPos + 3] ? '7' : '6'; } return src.length > srcPos + 3 && src[srcPos + 3] ? '5' : '4'; } if (src.length > srcPos + 2 && src[srcPos + 2]) { return src.length > srcPos + 3 && src[srcPos + 3] ? '3' : '2'; } return src.length > srcPos + 3 && src[srcPos + 3] ? '1' : '0'; }

Converts the 4 lsb of an int to a hexadecimal digit.

0 returns '0'

1 returns '1'

10 returns 'A' and so on...

Params:
  • nibble – the 4 bits to convert
Throws:
Returns:a hexadecimal digit representing the 4 lsb of nibble
/** * <p> * Converts the 4 lsb of an int to a hexadecimal digit. * </p> * <p> * 0 returns '0' * </p> * <p> * 1 returns '1' * </p> * <p> * 10 returns 'A' and so on... * </p> * * @param nibble the 4 bits to convert * @return a hexadecimal digit representing the 4 lsb of {@code nibble} * @throws IllegalArgumentException if {@code nibble < 0} or {@code nibble > 15} */
public static char intToHexDigit(final int nibble) { final char c = Character.forDigit(nibble, 16); if (c == Character.MIN_VALUE) { throw new IllegalArgumentException("nibble value not between 0 and 15: " + nibble); } return c; }

Converts the 4 lsb of an int to a hexadecimal digit encoded using the Msb0 bit ordering.

0 returns '0'

1 returns '8'

10 returns '5' and so on...

Params:
  • nibble – the 4 bits to convert
Throws:
Returns:a hexadecimal digit representing the 4 lsb of nibble
/** * <p> * Converts the 4 lsb of an int to a hexadecimal digit encoded using the Msb0 bit ordering. * </p> * <p> * 0 returns '0' * </p> * <p> * 1 returns '8' * </p> * <p> * 10 returns '5' and so on... * </p> * * @param nibble the 4 bits to convert * @return a hexadecimal digit representing the 4 lsb of {@code nibble} * @throws IllegalArgumentException if {@code nibble < 0} or {@code nibble > 15} */
public static char intToHexDigitMsb0(final int nibble) { switch (nibble) { case 0x0: return '0'; case 0x1: return '8'; case 0x2: return '4'; case 0x3: return 'c'; case 0x4: return '2'; case 0x5: return 'a'; case 0x6: return '6'; case 0x7: return 'e'; case 0x8: return '1'; case 0x9: return '9'; case 0xA: return '5'; case 0xB: return 'd'; case 0xC: return '3'; case 0xD: return 'b'; case 0xE: return '7'; case 0xF: return 'f'; default: throw new IllegalArgumentException("nibble value not between 0 and 15: " + nibble); } }

Converts an array of int into a long using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the int array to convert
  • srcPos – the position in src, in int unit, from where to start the conversion
  • dstInit – initial value of the destination long
  • dstPos – the position of the lsb, in bits, in the result long
  • nInts – the number of ints to convert
Throws:
Returns:a long containing the selected bits
/** * <p> * Converts an array of int into a long using the default (little endian, Lsb0) byte and bit * ordering. * </p> * * @param src the int array to convert * @param srcPos the position in {@code src}, in int unit, from where to start the * conversion * @param dstInit initial value of the destination long * @param dstPos the position of the lsb, in bits, in the result long * @param nInts the number of ints to convert * @return a long containing the selected bits * @throws IllegalArgumentException if {@code (nInts-1)*32+dstPos >= 64} * @throws NullPointerException if {@code src} is {@code null} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nInts > src.length} */
public static long intArrayToLong(final int[] src, final int srcPos, final long dstInit, final int dstPos, final int nInts) { if (src.length == 0 && srcPos == 0 || 0 == nInts) { return dstInit; } if ((nInts - 1) * 32 + dstPos >= 64) { throw new IllegalArgumentException("(nInts-1)*32+dstPos is greater or equal to than 64"); } long out = dstInit; for (int i = 0; i < nInts; i++) { final int shift = i * 32 + dstPos; final long bits = (0xffffffffL & src[i + srcPos]) << shift; final long mask = 0xffffffffL << shift; out = (out & ~mask) | bits; } return out; }

Converts an array of short into a long using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the short array to convert
  • srcPos – the position in src, in short unit, from where to start the conversion
  • dstInit – initial value of the destination long
  • dstPos – the position of the lsb, in bits, in the result long
  • nShorts – the number of shorts to convert
Throws:
Returns:a long containing the selected bits
/** * <p> * Converts an array of short into a long using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the short array to convert * @param srcPos the position in {@code src}, in short unit, from where to start the * conversion * @param dstInit initial value of the destination long * @param dstPos the position of the lsb, in bits, in the result long * @param nShorts the number of shorts to convert * @return a long containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code (nShorts-1)*16+dstPos >= 64} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nShorts > src.length} */
public static long shortArrayToLong(final short[] src, final int srcPos, final long dstInit, final int dstPos, final int nShorts) { if (src.length == 0 && srcPos == 0 || 0 == nShorts) { return dstInit; } if ((nShorts - 1) * 16 + dstPos >= 64) { throw new IllegalArgumentException("(nShorts-1)*16+dstPos is greater or equal to than 64"); } long out = dstInit; for (int i = 0; i < nShorts; i++) { final int shift = i * 16 + dstPos; final long bits = (0xffffL & src[i + srcPos]) << shift; final long mask = 0xffffL << shift; out = (out & ~mask) | bits; } return out; }

Converts an array of short into an int using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the short array to convert
  • srcPos – the position in src, in short unit, from where to start the conversion
  • dstInit – initial value of the destination int
  • dstPos – the position of the lsb, in bits, in the result int
  • nShorts – the number of shorts to convert
Throws:
Returns:an int containing the selected bits
/** * <p> * Converts an array of short into an int using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the short array to convert * @param srcPos the position in {@code src}, in short unit, from where to start the * conversion * @param dstInit initial value of the destination int * @param dstPos the position of the lsb, in bits, in the result int * @param nShorts the number of shorts to convert * @return an int containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code (nShorts-1)*16+dstPos >= 32} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nShorts > src.length} */
public static int shortArrayToInt(final short[] src, final int srcPos, final int dstInit, final int dstPos, final int nShorts) { if (src.length == 0 && srcPos == 0 || 0 == nShorts) { return dstInit; } if ((nShorts - 1) * 16 + dstPos >= 32) { throw new IllegalArgumentException("(nShorts-1)*16+dstPos is greater or equal to than 32"); } int out = dstInit; for (int i = 0; i < nShorts; i++) { final int shift = i * 16 + dstPos; final int bits = (0xffff & src[i + srcPos]) << shift; final int mask = 0xffff << shift; out = (out & ~mask) | bits; } return out; }

Converts an array of byte into a long using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the byte array to convert
  • srcPos – the position in src, in byte unit, from where to start the conversion
  • dstInit – initial value of the destination long
  • dstPos – the position of the lsb, in bits, in the result long
  • nBytes – the number of bytes to convert
Throws:
Returns:a long containing the selected bits
/** * <p> * Converts an array of byte into a long using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the byte array to convert * @param srcPos the position in {@code src}, in byte unit, from where to start the * conversion * @param dstInit initial value of the destination long * @param dstPos the position of the lsb, in bits, in the result long * @param nBytes the number of bytes to convert * @return a long containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code (nBytes-1)*8+dstPos >= 64} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nBytes > src.length} */
public static long byteArrayToLong(final byte[] src, final int srcPos, final long dstInit, final int dstPos, final int nBytes) { if (src.length == 0 && srcPos == 0 || 0 == nBytes) { return dstInit; } if ((nBytes - 1) * 8 + dstPos >= 64) { throw new IllegalArgumentException("(nBytes-1)*8+dstPos is greater or equal to than 64"); } long out = dstInit; for (int i = 0; i < nBytes; i++) { final int shift = i * 8 + dstPos; final long bits = (0xffL & src[i + srcPos]) << shift; final long mask = 0xffL << shift; out = (out & ~mask) | bits; } return out; }

Converts an array of byte into an int using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the byte array to convert
  • srcPos – the position in src, in byte unit, from where to start the conversion
  • dstInit – initial value of the destination int
  • dstPos – the position of the lsb, in bits, in the result int
  • nBytes – the number of bytes to convert
Throws:
Returns:an int containing the selected bits
/** * <p> * Converts an array of byte into an int using the default (little endian, Lsb0) byte and bit * ordering. * </p> * * @param src the byte array to convert * @param srcPos the position in {@code src}, in byte unit, from where to start the * conversion * @param dstInit initial value of the destination int * @param dstPos the position of the lsb, in bits, in the result int * @param nBytes the number of bytes to convert * @return an int containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code (nBytes-1)*8+dstPos >= 32} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nBytes > src.length} */
public static int byteArrayToInt(final byte[] src, final int srcPos, final int dstInit, final int dstPos, final int nBytes) { if (src.length == 0 && srcPos == 0 || 0 == nBytes) { return dstInit; } if ((nBytes - 1) * 8 + dstPos >= 32) { throw new IllegalArgumentException("(nBytes-1)*8+dstPos is greater or equal to than 32"); } int out = dstInit; for (int i = 0; i < nBytes; i++) { final int shift = i * 8 + dstPos; final int bits = (0xff & src[i + srcPos]) << shift; final int mask = 0xff << shift; out = (out & ~mask) | bits; } return out; }

Converts an array of byte into a short using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the byte array to convert
  • srcPos – the position in src, in byte unit, from where to start the conversion
  • dstInit – initial value of the destination short
  • dstPos – the position of the lsb, in bits, in the result short
  • nBytes – the number of bytes to convert
Throws:
Returns:a short containing the selected bits
/** * <p> * Converts an array of byte into a short using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the byte array to convert * @param srcPos the position in {@code src}, in byte unit, from where to start the * conversion * @param dstInit initial value of the destination short * @param dstPos the position of the lsb, in bits, in the result short * @param nBytes the number of bytes to convert * @return a short containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code (nBytes-1)*8+dstPos >= 16} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nBytes > src.length} */
public static short byteArrayToShort(final byte[] src, final int srcPos, final short dstInit, final int dstPos, final int nBytes) { if (src.length == 0 && srcPos == 0 || 0 == nBytes) { return dstInit; } if ((nBytes - 1) * 8 + dstPos >= 16) { throw new IllegalArgumentException("(nBytes-1)*8+dstPos is greater or equal to than 16"); } short out = dstInit; for (int i = 0; i < nBytes; i++) { final int shift = i * 8 + dstPos; final int bits = (0xff & src[i + srcPos]) << shift; final int mask = 0xff << shift; out = (short) ((out & ~mask) | bits); } return out; }

Converts an array of Char into a long using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the hex string to convert
  • srcPos – the position in src, in Char unit, from where to start the conversion
  • dstInit – initial value of the destination long
  • dstPos – the position of the lsb, in bits, in the result long
  • nHex – the number of Chars to convert
Throws:
Returns:a long containing the selected bits
/** * <p> * Converts an array of Char into a long using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the hex string to convert * @param srcPos the position in {@code src}, in Char unit, from where to start the * conversion * @param dstInit initial value of the destination long * @param dstPos the position of the lsb, in bits, in the result long * @param nHex the number of Chars to convert * @return a long containing the selected bits * @throws IllegalArgumentException if {@code (nHexs-1)*4+dstPos >= 64} */
public static long hexToLong(final String src, final int srcPos, final long dstInit, final int dstPos, final int nHex) { if (0 == nHex) { return dstInit; } if ((nHex - 1) * 4 + dstPos >= 64) { throw new IllegalArgumentException("(nHexs-1)*4+dstPos is greater or equal to than 64"); } long out = dstInit; for (int i = 0; i < nHex; i++) { final int shift = i * 4 + dstPos; final long bits = (0xfL & hexDigitToInt(src.charAt(i + srcPos))) << shift; final long mask = 0xfL << shift; out = (out & ~mask) | bits; } return out; }

Converts an array of Char into an int using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the hex string to convert
  • srcPos – the position in src, in Char unit, from where to start the conversion
  • dstInit – initial value of the destination int
  • dstPos – the position of the lsb, in bits, in the result int
  • nHex – the number of Chars to convert
Throws:
Returns:an int containing the selected bits
/** * <p> * Converts an array of Char into an int using the default (little endian, Lsb0) byte and bit * ordering. * </p> * * @param src the hex string to convert * @param srcPos the position in {@code src}, in Char unit, from where to start the * conversion * @param dstInit initial value of the destination int * @param dstPos the position of the lsb, in bits, in the result int * @param nHex the number of Chars to convert * @return an int containing the selected bits * @throws IllegalArgumentException if {@code (nHexs-1)*4+dstPos >= 32} */
public static int hexToInt(final String src, final int srcPos, final int dstInit, final int dstPos, final int nHex) { if (0 == nHex) { return dstInit; } if ((nHex - 1) * 4 + dstPos >= 32) { throw new IllegalArgumentException("(nHexs-1)*4+dstPos is greater or equal to than 32"); } int out = dstInit; for (int i = 0; i < nHex; i++) { final int shift = i * 4 + dstPos; final int bits = (0xf & hexDigitToInt(src.charAt(i + srcPos))) << shift; final int mask = 0xf << shift; out = (out & ~mask) | bits; } return out; }

Converts an array of Char into a short using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the hex string to convert
  • srcPos – the position in src, in Char unit, from where to start the conversion
  • dstInit – initial value of the destination short
  • dstPos – the position of the lsb, in bits, in the result short
  • nHex – the number of Chars to convert
Throws:
Returns:a short containing the selected bits
/** * <p> * Converts an array of Char into a short using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the hex string to convert * @param srcPos the position in {@code src}, in Char unit, from where to start the * conversion * @param dstInit initial value of the destination short * @param dstPos the position of the lsb, in bits, in the result short * @param nHex the number of Chars to convert * @return a short containing the selected bits * @throws IllegalArgumentException if {@code (nHexs-1)*4+dstPos >= 16} */
public static short hexToShort(final String src, final int srcPos, final short dstInit, final int dstPos, final int nHex) { if (0 == nHex) { return dstInit; } if ((nHex - 1) * 4 + dstPos >= 16) { throw new IllegalArgumentException("(nHexs-1)*4+dstPos is greater or equal to than 16"); } short out = dstInit; for (int i = 0; i < nHex; i++) { final int shift = i * 4 + dstPos; final int bits = (0xf & hexDigitToInt(src.charAt(i + srcPos))) << shift; final int mask = 0xf << shift; out = (short) ((out & ~mask) | bits); } return out; }

Converts an array of Char into a byte using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the hex string to convert
  • srcPos – the position in src, in Char unit, from where to start the conversion
  • dstInit – initial value of the destination byte
  • dstPos – the position of the lsb, in bits, in the result byte
  • nHex – the number of Chars to convert
Throws:
Returns:a byte containing the selected bits
/** * <p> * Converts an array of Char into a byte using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the hex string to convert * @param srcPos the position in {@code src}, in Char unit, from where to start the * conversion * @param dstInit initial value of the destination byte * @param dstPos the position of the lsb, in bits, in the result byte * @param nHex the number of Chars to convert * @return a byte containing the selected bits * @throws IllegalArgumentException if {@code (nHexs-1)*4+dstPos >= 8} */
public static byte hexToByte(final String src, final int srcPos, final byte dstInit, final int dstPos, final int nHex) { if (0 == nHex) { return dstInit; } if ((nHex - 1) * 4 + dstPos >= 8) { throw new IllegalArgumentException("(nHexs-1)*4+dstPos is greater or equal to than 8"); } byte out = dstInit; for (int i = 0; i < nHex; i++) { final int shift = i * 4 + dstPos; final int bits = (0xf & hexDigitToInt(src.charAt(i + srcPos))) << shift; final int mask = 0xf << shift; out = (byte) ((out & ~mask) | bits); } return out; }

Converts binary (represented as boolean array) into a long using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the binary to convert
  • srcPos – the position in src, in boolean unit, from where to start the conversion
  • dstInit – initial value of the destination long
  • dstPos – the position of the lsb, in bits, in the result long
  • nBools – the number of booleans to convert
Throws:
Returns:a long containing the selected bits
/** * <p> * Converts binary (represented as boolean array) into a long using the default (little * endian, Lsb0) byte and bit ordering. * </p> * * @param src the binary to convert * @param srcPos the position in {@code src}, in boolean unit, from where to start the * conversion * @param dstInit initial value of the destination long * @param dstPos the position of the lsb, in bits, in the result long * @param nBools the number of booleans to convert * @return a long containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code nBools-1+dstPos >= 64} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nBools > src.length} */
public static long binaryToLong(final boolean[] src, final int srcPos, final long dstInit, final int dstPos, final int nBools) { if (src.length == 0 && srcPos == 0 || 0 == nBools) { return dstInit; } if (nBools - 1 + dstPos >= 64) { throw new IllegalArgumentException("nBools-1+dstPos is greater or equal to than 64"); } long out = dstInit; for (int i = 0; i < nBools; i++) { final int shift = i + dstPos; final long bits = (src[i + srcPos] ? 1L : 0) << shift; final long mask = 0x1L << shift; out = (out & ~mask) | bits; } return out; }

Converts binary (represented as boolean array) into an int using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the binary to convert
  • srcPos – the position in src, in boolean unit, from where to start the conversion
  • dstInit – initial value of the destination int
  • dstPos – the position of the lsb, in bits, in the result int
  • nBools – the number of booleans to convert
Throws:
Returns:an int containing the selected bits
/** * <p> * Converts binary (represented as boolean array) into an int using the default (little * endian, Lsb0) byte and bit ordering. * </p> * * @param src the binary to convert * @param srcPos the position in {@code src}, in boolean unit, from where to start the * conversion * @param dstInit initial value of the destination int * @param dstPos the position of the lsb, in bits, in the result int * @param nBools the number of booleans to convert * @return an int containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code nBools-1+dstPos >= 32} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nBools > src.length} */
public static int binaryToInt(final boolean[] src, final int srcPos, final int dstInit, final int dstPos, final int nBools) { if (src.length == 0 && srcPos == 0 || 0 == nBools) { return dstInit; } if (nBools - 1 + dstPos >= 32) { throw new IllegalArgumentException("nBools-1+dstPos is greater or equal to than 32"); } int out = dstInit; for (int i = 0; i < nBools; i++) { final int shift = i + dstPos; final int bits = (src[i + srcPos] ? 1 : 0) << shift; final int mask = 0x1 << shift; out = (out & ~mask) | bits; } return out; }

Converts binary (represented as boolean array) into a short using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the binary to convert
  • srcPos – the position in src, in boolean unit, from where to start the conversion
  • dstInit – initial value of the destination short
  • dstPos – the position of the lsb, in bits, in the result short
  • nBools – the number of booleans to convert
Throws:
Returns:a short containing the selected bits
/** * <p> * Converts binary (represented as boolean array) into a short using the default (little * endian, Lsb0) byte and bit ordering. * </p> * * @param src the binary to convert * @param srcPos the position in {@code src}, in boolean unit, from where to start the * conversion * @param dstInit initial value of the destination short * @param dstPos the position of the lsb, in bits, in the result short * @param nBools the number of booleans to convert * @return a short containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code nBools-1+dstPos >= 16} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nBools > src.length} */
public static short binaryToShort(final boolean[] src, final int srcPos, final short dstInit, final int dstPos, final int nBools) { if (src.length == 0 && srcPos == 0 || 0 == nBools) { return dstInit; } if (nBools - 1 + dstPos >= 16) { throw new IllegalArgumentException("nBools-1+dstPos is greater or equal to than 16"); } short out = dstInit; for (int i = 0; i < nBools; i++) { final int shift = i + dstPos; final int bits = (src[i + srcPos] ? 1 : 0) << shift; final int mask = 0x1 << shift; out = (short) ((out & ~mask) | bits); } return out; }

Converts binary (represented as boolean array) into a byte using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the binary to convert
  • srcPos – the position in src, in boolean unit, from where to start the conversion
  • dstInit – initial value of the destination byte
  • dstPos – the position of the lsb, in bits, in the result byte
  • nBools – the number of booleans to convert
Throws:
Returns:a byte containing the selected bits
/** * <p> * Converts binary (represented as boolean array) into a byte using the default (little * endian, Lsb0) byte and bit ordering. * </p> * * @param src the binary to convert * @param srcPos the position in {@code src}, in boolean unit, from where to start the * conversion * @param dstInit initial value of the destination byte * @param dstPos the position of the lsb, in bits, in the result byte * @param nBools the number of booleans to convert * @return a byte containing the selected bits * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if {@code nBools-1+dstPos >= 8} * @throws ArrayIndexOutOfBoundsException if {@code srcPos + nBools > src.length} */
public static byte binaryToByte(final boolean[] src, final int srcPos, final byte dstInit, final int dstPos, final int nBools) { if (src.length == 0 && srcPos == 0 || 0 == nBools) { return dstInit; } if (nBools - 1 + dstPos >= 8) { throw new IllegalArgumentException("nBools-1+dstPos is greater or equal to than 8"); } byte out = dstInit; for (int i = 0; i < nBools; i++) { final int shift = i + dstPos; final int bits = (src[i + srcPos] ? 1 : 0) << shift; final int mask = 0x1 << shift; out = (byte) ((out & ~mask) | bits); } return out; }

Converts a long into an array of int using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the long to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nInts – the number of ints to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a long into an array of int using the default (little endian, Lsb0) byte and bit * ordering. * </p> * * @param src the long to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nInts the number of ints to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} and {@code nInts > 0} * @throws IllegalArgumentException if {@code (nInts-1)*32+srcPos >= 64} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nInts > dst.length} */
public static int[] longToIntArray(final long src, final int srcPos, final int[] dst, final int dstPos, final int nInts) { if (0 == nInts) { return dst; } if ((nInts - 1) * 32 + srcPos >= 64) { throw new IllegalArgumentException("(nInts-1)*32+srcPos is greater or equal to than 64"); } for (int i = 0; i < nInts; i++) { final int shift = i * 32 + srcPos; dst[dstPos + i] = (int) (0xffffffff & (src >> shift)); } return dst; }

Converts a long into an array of short using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the long to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nShorts – the number of shorts to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a long into an array of short using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the long to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nShorts the number of shorts to copy to {@code dst}, must be smaller or equal to * the width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code (nShorts-1)*16+srcPos >= 64} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nShorts > dst.length} */
public static short[] longToShortArray(final long src, final int srcPos, final short[] dst, final int dstPos, final int nShorts) { if (0 == nShorts) { return dst; } if ((nShorts - 1) * 16 + srcPos >= 64) { throw new IllegalArgumentException("(nShorts-1)*16+srcPos is greater or equal to than 64"); } for (int i = 0; i < nShorts; i++) { final int shift = i * 16 + srcPos; dst[dstPos + i] = (short) (0xffff & (src >> shift)); } return dst; }

Converts an int into an array of short using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the int to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nShorts – the number of shorts to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts an int into an array of short using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the int to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nShorts the number of shorts to copy to {@code dst}, must be smaller or equal to * the width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code (nShorts-1)*16+srcPos >= 32} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nShorts > dst.length} */
public static short[] intToShortArray(final int src, final int srcPos, final short[] dst, final int dstPos, final int nShorts) { if (0 == nShorts) { return dst; } if ((nShorts - 1) * 16 + srcPos >= 32) { throw new IllegalArgumentException("(nShorts-1)*16+srcPos is greater or equal to than 32"); } for (int i = 0; i < nShorts; i++) { final int shift = i * 16 + srcPos; dst[dstPos + i] = (short) (0xffff & (src >> shift)); } return dst; }

Converts a long into an array of byte using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the long to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nBytes – the number of bytes to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a long into an array of byte using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the long to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nBytes the number of bytes to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code (nBytes-1)*8+srcPos >= 64} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nBytes > dst.length} */
public static byte[] longToByteArray(final long src, final int srcPos, final byte[] dst, final int dstPos, final int nBytes) { if (0 == nBytes) { return dst; } if ((nBytes - 1) * 8 + srcPos >= 64) { throw new IllegalArgumentException("(nBytes-1)*8+srcPos is greater or equal to than 64"); } for (int i = 0; i < nBytes; i++) { final int shift = i * 8 + srcPos; dst[dstPos + i] = (byte) (0xff & (src >> shift)); } return dst; }

Converts an int into an array of byte using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the int to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nBytes – the number of bytes to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts an int into an array of byte using the default (little endian, Lsb0) byte and bit * ordering. * </p> * * @param src the int to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nBytes the number of bytes to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code (nBytes-1)*8+srcPos >= 32} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nBytes > dst.length} */
public static byte[] intToByteArray(final int src, final int srcPos, final byte[] dst, final int dstPos, final int nBytes) { if (0 == nBytes) { return dst; } if ((nBytes - 1) * 8 + srcPos >= 32) { throw new IllegalArgumentException("(nBytes-1)*8+srcPos is greater or equal to than 32"); } for (int i = 0; i < nBytes; i++) { final int shift = i * 8 + srcPos; dst[dstPos + i] = (byte) (0xff & (src >> shift)); } return dst; }

Converts a short into an array of byte using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the short to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nBytes – the number of bytes to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a short into an array of byte using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the short to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nBytes the number of bytes to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code (nBytes-1)*8+srcPos >= 16} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nBytes > dst.length} */
public static byte[] shortToByteArray(final short src, final int srcPos, final byte[] dst, final int dstPos, final int nBytes) { if (0 == nBytes) { return dst; } if ((nBytes - 1) * 8 + srcPos >= 16) { throw new IllegalArgumentException("(nBytes-1)*8+srcPos is greater or equal to than 16"); } for (int i = 0; i < nBytes; i++) { final int shift = i * 8 + srcPos; dst[dstPos + i] = (byte) (0xff & (src >> shift)); } return dst; }

Converts a long into an array of Char using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the long to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dstInit – the initial value for the result String
  • dstPos – the position in dst where to copy the result
  • nHexs – the number of Chars to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a long into an array of Char using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the long to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dstInit the initial value for the result String * @param dstPos the position in {@code dst} where to copy the result * @param nHexs the number of Chars to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws IllegalArgumentException if {@code (nHexs-1)*4+srcPos >= 64} * @throws StringIndexOutOfBoundsException if {@code dst.init.length() < dstPos} */
public static String longToHex(final long src, final int srcPos, final String dstInit, final int dstPos, final int nHexs) { if (0 == nHexs) { return dstInit; } if ((nHexs - 1) * 4 + srcPos >= 64) { throw new IllegalArgumentException("(nHexs-1)*4+srcPos is greater or equal to than 64"); } final StringBuilder sb = new StringBuilder(dstInit); int append = sb.length(); for (int i = 0; i < nHexs; i++) { final int shift = i * 4 + srcPos; final int bits = (int) (0xF & (src >> shift)); if (dstPos + i == append) { ++append; sb.append(intToHexDigit(bits)); } else { sb.setCharAt(dstPos + i, intToHexDigit(bits)); } } return sb.toString(); }

Converts an int into an array of Char using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the int to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dstInit – the initial value for the result String
  • dstPos – the position in dst where to copy the result
  • nHexs – the number of Chars to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts an int into an array of Char using the default (little endian, Lsb0) byte and bit * ordering. * </p> * * @param src the int to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dstInit the initial value for the result String * @param dstPos the position in {@code dst} where to copy the result * @param nHexs the number of Chars to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws IllegalArgumentException if {@code (nHexs-1)*4+srcPos >= 32} * @throws StringIndexOutOfBoundsException if {@code dst.init.length() < dstPos} */
public static String intToHex(final int src, final int srcPos, final String dstInit, final int dstPos, final int nHexs) { if (0 == nHexs) { return dstInit; } if ((nHexs - 1) * 4 + srcPos >= 32) { throw new IllegalArgumentException("(nHexs-1)*4+srcPos is greater or equal to than 32"); } final StringBuilder sb = new StringBuilder(dstInit); int append = sb.length(); for (int i = 0; i < nHexs; i++) { final int shift = i * 4 + srcPos; final int bits = 0xF & (src >> shift); if (dstPos + i == append) { ++append; sb.append(intToHexDigit(bits)); } else { sb.setCharAt(dstPos + i, intToHexDigit(bits)); } } return sb.toString(); }

Converts a short into an array of Char using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the short to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dstInit – the initial value for the result String
  • dstPos – the position in dst where to copy the result
  • nHexs – the number of Chars to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a short into an array of Char using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the short to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dstInit the initial value for the result String * @param dstPos the position in {@code dst} where to copy the result * @param nHexs the number of Chars to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws IllegalArgumentException if {@code (nHexs-1)*4+srcPos >= 16} * @throws StringIndexOutOfBoundsException if {@code dst.init.length() < dstPos} */
public static String shortToHex(final short src, final int srcPos, final String dstInit, final int dstPos, final int nHexs) { if (0 == nHexs) { return dstInit; } if ((nHexs - 1) * 4 + srcPos >= 16) { throw new IllegalArgumentException("(nHexs-1)*4+srcPos is greater or equal to than 16"); } final StringBuilder sb = new StringBuilder(dstInit); int append = sb.length(); for (int i = 0; i < nHexs; i++) { final int shift = i * 4 + srcPos; final int bits = 0xF & (src >> shift); if (dstPos + i == append) { ++append; sb.append(intToHexDigit(bits)); } else { sb.setCharAt(dstPos + i, intToHexDigit(bits)); } } return sb.toString(); }

Converts a byte into an array of Char using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the byte to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dstInit – the initial value for the result String
  • dstPos – the position in dst where to copy the result
  • nHexs – the number of Chars to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a byte into an array of Char using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the byte to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dstInit the initial value for the result String * @param dstPos the position in {@code dst} where to copy the result * @param nHexs the number of Chars to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws IllegalArgumentException if {@code (nHexs-1)*4+srcPos >= 8} * @throws StringIndexOutOfBoundsException if {@code dst.init.length() < dstPos} */
public static String byteToHex(final byte src, final int srcPos, final String dstInit, final int dstPos, final int nHexs) { if (0 == nHexs) { return dstInit; } if ((nHexs - 1) * 4 + srcPos >= 8) { throw new IllegalArgumentException("(nHexs-1)*4+srcPos is greater or equal to than 8"); } final StringBuilder sb = new StringBuilder(dstInit); int append = sb.length(); for (int i = 0; i < nHexs; i++) { final int shift = i * 4 + srcPos; final int bits = 0xF & (src >> shift); if (dstPos + i == append) { ++append; sb.append(intToHexDigit(bits)); } else { sb.setCharAt(dstPos + i, intToHexDigit(bits)); } } return sb.toString(); }

Converts a long into an array of boolean using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the long to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nBools – the number of booleans to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a long into an array of boolean using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the long to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nBools the number of booleans to copy to {@code dst}, must be smaller or equal to * the width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code nBools-1+srcPos >= 64} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nBools > dst.length} */
public static boolean[] longToBinary(final long src, final int srcPos, final boolean[] dst, final int dstPos, final int nBools) { if (0 == nBools) { return dst; } if (nBools - 1 + srcPos >= 64) { throw new IllegalArgumentException("nBools-1+srcPos is greater or equal to than 64"); } for (int i = 0; i < nBools; i++) { final int shift = i + srcPos; dst[dstPos + i] = (0x1 & (src >> shift)) != 0; } return dst; }

Converts an int into an array of boolean using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the int to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nBools – the number of booleans to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts an int into an array of boolean using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the int to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nBools the number of booleans to copy to {@code dst}, must be smaller or equal to * the width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code nBools-1+srcPos >= 32} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nBools > dst.length} */
public static boolean[] intToBinary(final int src, final int srcPos, final boolean[] dst, final int dstPos, final int nBools) { if (0 == nBools) { return dst; } if (nBools - 1 + srcPos >= 32) { throw new IllegalArgumentException("nBools-1+srcPos is greater or equal to than 32"); } for (int i = 0; i < nBools; i++) { final int shift = i + srcPos; dst[dstPos + i] = (0x1 & (src >> shift)) != 0; } return dst; }

Converts a short into an array of boolean using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the short to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nBools – the number of booleans to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a short into an array of boolean using the default (little endian, Lsb0) byte * and bit ordering. * </p> * * @param src the short to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nBools the number of booleans to copy to {@code dst}, must be smaller or equal to * the width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code nBools-1+srcPos >= 16} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nBools > dst.length} */
public static boolean[] shortToBinary(final short src, final int srcPos, final boolean[] dst, final int dstPos, final int nBools) { if (0 == nBools) { return dst; } if (nBools - 1 + srcPos >= 16) { throw new IllegalArgumentException("nBools-1+srcPos is greater or equal to than 16"); } assert (nBools - 1) < 16 - srcPos; for (int i = 0; i < nBools; i++) { final int shift = i + srcPos; dst[dstPos + i] = (0x1 & (src >> shift)) != 0; } return dst; }

Converts a byte into an array of boolean using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the byte to convert
  • srcPos – the position in src, in bits, from where to start the conversion
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nBools – the number of booleans to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts a byte into an array of boolean using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the byte to convert * @param srcPos the position in {@code src}, in bits, from where to start the conversion * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nBools the number of booleans to copy to {@code dst}, must be smaller or equal to * the width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code nBools-1+srcPos >= 8} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nBools > dst.length} */
public static boolean[] byteToBinary(final byte src, final int srcPos, final boolean[] dst, final int dstPos, final int nBools) { if (0 == nBools) { return dst; } if (nBools - 1 + srcPos >= 8) { throw new IllegalArgumentException("nBools-1+srcPos is greater or equal to than 8"); } for (int i = 0; i < nBools; i++) { final int shift = i + srcPos; dst[dstPos + i] = (0x1 & (src >> shift)) != 0; } return dst; }

Converts UUID into an array of byte using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the UUID to convert
  • dst – the destination array
  • dstPos – the position in dst where to copy the result
  • nBytes – the number of bytes to copy to dst, must be smaller or equal to the width of the input (from srcPos to msb)
Throws:
Returns:dst
/** * <p> * Converts UUID into an array of byte using the default (little endian, Lsb0) byte and bit * ordering. * </p> * * @param src the UUID to convert * @param dst the destination array * @param dstPos the position in {@code dst} where to copy the result * @param nBytes the number of bytes to copy to {@code dst}, must be smaller or equal to the * width of the input (from srcPos to msb) * @return {@code dst} * @throws NullPointerException if {@code dst} is {@code null} * @throws IllegalArgumentException if {@code nBytes > 16} * @throws ArrayIndexOutOfBoundsException if {@code dstPos + nBytes > dst.length} */
public static byte[] uuidToByteArray(final UUID src, final byte[] dst, final int dstPos, final int nBytes) { if (0 == nBytes) { return dst; } if (nBytes > 16) { throw new IllegalArgumentException("nBytes is greater than 16"); } longToByteArray(src.getMostSignificantBits(), 0, dst, dstPos, nBytes > 8 ? 8 : nBytes); if (nBytes >= 8) { longToByteArray(src.getLeastSignificantBits(), 0, dst, dstPos + 8, nBytes - 8); } return dst; }

Converts bytes from an array into a UUID using the default (little endian, Lsb0) byte and bit ordering.

Params:
  • src – the byte array to convert
  • srcPos – the position in src where to copy the result from
Throws:
Returns:a UUID
/** * <p> * Converts bytes from an array into a UUID using the default (little endian, Lsb0) byte and * bit ordering. * </p> * * @param src the byte array to convert * @param srcPos the position in {@code src} where to copy the result from * @return a UUID * @throws NullPointerException if {@code src} is {@code null} * @throws IllegalArgumentException if array does not contain at least 16 bytes beginning * with {@code srcPos} */
public static UUID byteArrayToUuid(final byte[] src, final int srcPos) { if (src.length - srcPos < 16) { throw new IllegalArgumentException("Need at least 16 bytes for UUID"); } return new UUID(byteArrayToLong(src, srcPos, 0, 0, 8), byteArrayToLong(src, srcPos + 8, 0, 0, 8)); } }