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coreutils: Block size

 
 2.3 Block size
 ==============
 
 Some GNU programs (at least ‘df’, ‘du’, and ‘ls’) display sizes in
 “blocks”.  You can adjust the block size and method of display to make
 sizes easier to read.  The block size used for display is independent of
 any file system block size.  Fractional block counts are rounded up to
 the nearest integer.
 
    The default block size is chosen by examining the following
 environment variables in turn; the first one that is set determines the
 block size.
 
 ‘DF_BLOCK_SIZE’
      This specifies the default block size for the ‘df’ command.
      Similarly, ‘DU_BLOCK_SIZE’ specifies the default for ‘du’ and
      ‘LS_BLOCK_SIZE’ for ‘ls’.
 
 ‘BLOCK_SIZE’
      This specifies the default block size for all three commands, if
      the above command-specific environment variables are not set.
 
 ‘BLOCKSIZE’
      This specifies the default block size for all values that are
      normally printed as blocks, if neither ‘BLOCK_SIZE’ nor the above
      command-specific environment variables are set.  Unlike the other
      environment variables, ‘BLOCKSIZE’ does not affect values that are
      normally printed as byte counts, e.g., the file sizes contained in
      ‘ls -l’ output.
 
 ‘POSIXLY_CORRECT’
      If neither ‘COMMAND_BLOCK_SIZE’, nor ‘BLOCK_SIZE’, nor ‘BLOCKSIZE’
      is set, but this variable is set, the block size defaults to 512.
 
    If none of the above environment variables are set, the block size
 currently defaults to 1024 bytes in most contexts, but this number may
 change in the future.  For ‘ls’ file sizes, the block size defaults to 1
 byte.
 
    A block size specification can be a positive integer specifying the
 number of bytes per block, or it can be ‘human-readable’ or ‘si’ to
 select a human-readable format.  Integers may be followed by suffixes
 that are upward compatible with the SI prefixes
 (http://www.bipm.org/en/publications/si-brochure/chapter3.html) for
 decimal multiples and with the ISO/IEC 80000-13 (formerly IEC 60027-2)
 prefixes (https://physics.nist.gov/cuu/Units/binary.html) for binary
 multiples.
 
    With human-readable formats, output sizes are followed by a size
 letter such as ‘M’ for megabytes.  ‘BLOCK_SIZE=human-readable’ uses
 powers of 1024; ‘M’ stands for 1,048,576 bytes.  ‘BLOCK_SIZE=si’ is
 similar, but uses powers of 1000 and appends ‘B’; ‘MB’ stands for
 1,000,000 bytes.
 
    A block size specification preceded by ‘'’ causes output sizes to be
 displayed with thousands separators.  The ‘LC_NUMERIC’ locale specifies
 the thousands separator and grouping.  For example, in an American
 English locale, ‘--block-size="'1kB"’ would cause a size of 1234000
 bytes to be displayed as ‘1,234’.  In the default C locale, there is no
 thousands separator so a leading ‘'’ has no effect.
 
    An integer block size can be followed by a suffix to specify a
 multiple of that size.  A bare size letter, or one followed by ‘iB’,
 specifies a multiple using powers of 1024.  A size letter followed by
 ‘B’ specifies powers of 1000 instead.  For example, ‘1M’ and ‘1MiB’ are
 equivalent to ‘1048576’, whereas ‘1MB’ is equivalent to ‘1000000’.
 
    A plain suffix without a preceding integer acts as if ‘1’ were
 prepended, except that it causes a size indication to be appended to the
 output.  For example, ‘--block-size="kB"’ displays 3000 as ‘3kB’.
 
    The following suffixes are defined.  Large sizes like ‘1Y’ may be
 rejected by your computer due to limitations of its arithmetic.
 
 ‘kB’
      kilobyte: 10^3 = 1000.
 ‘k’
 ‘K’
 ‘KiB’
      kibibyte: 2^{10} = 1024.  ‘K’ is special: the SI prefix is ‘k’ and
      the ISO/IEC 80000-13 prefix is ‘Ki’, but tradition and POSIX use
      ‘k’ to mean ‘KiB’.
 ‘MB’
      megabyte: 10^6 = 1,000,000.
 ‘M’
 ‘MiB’
      mebibyte: 2^{20} = 1,048,576.
 ‘GB’
      gigabyte: 10^9 = 1,000,000,000.
 ‘G’
 ‘GiB’
      gibibyte: 2^{30} = 1,073,741,824.
 ‘TB’
      terabyte: 10^{12} = 1,000,000,000,000.
 ‘T’
 ‘TiB’
      tebibyte: 2^{40} = 1,099,511,627,776.
 ‘PB’
      petabyte: 10^{15} = 1,000,000,000,000,000.
 ‘P’
 ‘PiB’
      pebibyte: 2^{50} = 1,125,899,906,842,624.
 ‘EB’
      exabyte: 10^{18} = 1,000,000,000,000,000,000.
 ‘E’
 ‘EiB’
      exbibyte: 2^{60} = 1,152,921,504,606,846,976.
 ‘ZB’
      zettabyte: 10^{21} = 1,000,000,000,000,000,000,000
 ‘Z’
 ‘ZiB’
      2^{70} = 1,180,591,620,717,411,303,424.
 ‘YB’
      yottabyte: 10^{24} = 1,000,000,000,000,000,000,000,000.
 ‘Y’
 ‘YiB’
      2^{80} = 1,208,925,819,614,629,174,706,176.
 
    Block size defaults can be overridden by an explicit
 ‘--block-size=SIZE’ option.  The ‘-k’ option is equivalent to
 ‘--block-size=1K’, which is the default unless the ‘POSIXLY_CORRECT’
 environment variable is set.  The ‘-h’ or ‘--human-readable’ option is
 equivalent to ‘--block-size=human-readable’.  The ‘--si’ option is
 equivalent to ‘--block-size=si’.  Note for ‘ls’ the ‘-k’ option does not
 control the display of the apparent file sizes, whereas the
 ‘--block-size’ option does.
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