@code{(require 'byte-number)} @ftindex byte-number @noindent The multi-byte sequences produced and used by numeric conversion routines are always big-endian. Endianness can be changed during reading and writing bytes using @code{read-bytes} and @code{write-bytes} @xref{Byte, read-bytes}. @noindent The sign of the length argument to bytes/integer conversion procedures determines the signedness of the number. @defun bytes->integer bytes n Converts the first @code{(abs @var{n})} bytes of big-endian @var{bytes} array to an integer. If @var{n} is negative then the integer coded by the bytes are treated as two's-complement (can be negative). @example (bytes->integer (bytes 0 0 0 15) -4) @result{} 15 (bytes->integer (bytes 0 0 0 15) 4) @result{} 15 (bytes->integer (bytes 255 255 255 255) -4) @result{} -1 (bytes->integer (bytes 255 255 255 255) 4) @result{} 4294967295 (bytes->integer (bytes 128 0 0 0) -4) @result{} -2147483648 (bytes->integer (bytes 128 0 0 0) 4) @result{} 2147483648 @end example @end defun @defun integer->bytes n len Converts the integer @var{n} to a byte-array of @code{(abs @var{n})} bytes. If @var{n} and @var{len} are both negative, then the bytes in the returned array are coded two's-complement. @example (bytes->list (integer->bytes 15 -4)) @result{} (0 0 0 15) (bytes->list (integer->bytes 15 4)) @result{} (0 0 0 15) (bytes->list (integer->bytes -1 -4)) @result{} (255 255 255 255) (bytes->list (integer->bytes 4294967295 4)) @result{} (255 255 255 255) (bytes->list (integer->bytes -2147483648 -4)) @result{} (128 0 0 0) (bytes->list (integer->bytes 2147483648 4)) @result{} (128 0 0 0) @end example @end defun @defun bytes->ieee-float bytes @var{bytes} must be a 4-element byte-array. @code{bytes->ieee-float} calculates and returns the value of @var{bytes} interpreted as a big-endian IEEE 4-byte (32-bit) number. @end defun @example (bytes->ieee-float (bytes 0 0 0 0)) @result{} 0.0 (bytes->ieee-float (bytes #x80 0 0 0)) @result{} -0.0 (bytes->ieee-float (bytes #x40 0 0 0)) @result{} 2.0 (bytes->ieee-float (bytes #x40 #xd0 0 0)) @result{} 6.5 (bytes->ieee-float (bytes #xc0 #xd0 0 0)) @result{} -6.5 (bytes->ieee-float (bytes 0 #x80 0 0)) @result{} 11.754943508222875e-39 (bytes->ieee-float (bytes 0 #x40 0 0)) @result{} 5.877471754111437e-39 (bytes->ieee-float (bytes 0 0 0 1)) @result{} 1.401298464324817e-45 (bytes->ieee-float (bytes #xff #x80 0 0)) @result{} -inf.0 (bytes->ieee-float (bytes #x7f #x80 0 0)) @result{} +inf.0 (bytes->ieee-float (bytes #x7f #x80 0 1)) @result{} 0/0 (bytes->ieee-float (bytes #x7f #xc0 0 0)) @result{} 0/0 @end example @defun bytes->ieee-double bytes @var{bytes} must be a 8-element byte-array. @code{bytes->ieee-double} calculates and returns the value of @var{bytes} interpreted as a big-endian IEEE 8-byte (64-bit) number. @end defun @example (bytes->ieee-double (bytes 0 0 0 0 0 0 0 0)) @result{} 0.0 (bytes->ieee-double (bytes #x80 0 0 0 0 0 0 0)) @result{} -0.0 (bytes->ieee-double (bytes #x40 0 0 0 0 0 0 0)) @result{} 2.0 (bytes->ieee-double (bytes #x40 #x1A 0 0 0 0 0 0)) @result{} 6.5 (bytes->ieee-double (bytes #xC0 #x1A 0 0 0 0 0 0)) @result{} -6.5 (bytes->ieee-double (bytes 0 8 0 0 0 0 0 0)) @result{} 11.125369292536006e-309 (bytes->ieee-double (bytes 0 4 0 0 0 0 0 0)) @result{} 5.562684646268003e-309 (bytes->ieee-double (bytes 0 0 0 0 0 0 0 1)) @result{} 4.0e-324 (bytes->ieee-double (bytes #xFF #xF0 0 0 0 0 0 0)) @result{} -inf.0 (bytes->ieee-double (bytes #x7F #xF0 0 0 0 0 0 0)) @result{} +inf.0 (bytes->ieee-double (bytes #x7F #xF8 0 0 0 0 0 0)) @result{} 0/0 @end example @defun ieee-float->bytes x Returns a 4-element byte-array encoding the IEEE single-precision floating-point of @var{x}. @end defun @example (bytes->list (ieee-float->bytes 0.0)) @result{} (0 0 0 0) (bytes->list (ieee-float->bytes -0.0)) @result{} (128 0 0 0) (bytes->list (ieee-float->bytes 2.0)) @result{} (64 0 0 0) (bytes->list (ieee-float->bytes 6.5)) @result{} (64 208 0 0) (bytes->list (ieee-float->bytes -6.5)) @result{} (192 208 0 0) (bytes->list (ieee-float->bytes 11.754943508222875e-39)) @result{} ( 0 128 0 0) (bytes->list (ieee-float->bytes 5.877471754111438e-39)) @result{} ( 0 64 0 0) (bytes->list (ieee-float->bytes 1.401298464324817e-45)) @result{} ( 0 0 0 1) (bytes->list (ieee-float->bytes -inf.0)) @result{} (255 128 0 0) (bytes->list (ieee-float->bytes +inf.0)) @result{} (127 128 0 0) (bytes->list (ieee-float->bytes 0/0)) @result{} (127 192 0 0) @end example @defun ieee-double->bytes x Returns a 8-element byte-array encoding the IEEE double-precision floating-point of @var{x}. @end defun @example (bytes->list (ieee-double->bytes 0.0)) @result{} (0 0 0 0 0 0 0 0) (bytes->list (ieee-double->bytes -0.0)) @result{} (128 0 0 0 0 0 0 0) (bytes->list (ieee-double->bytes 2.0)) @result{} (64 0 0 0 0 0 0 0) (bytes->list (ieee-double->bytes 6.5)) @result{} (64 26 0 0 0 0 0 0) (bytes->list (ieee-double->bytes -6.5)) @result{} (192 26 0 0 0 0 0 0) (bytes->list (ieee-double->bytes 11.125369292536006e-309)) @result{} ( 0 8 0 0 0 0 0 0) (bytes->list (ieee-double->bytes 5.562684646268003e-309)) @result{} ( 0 4 0 0 0 0 0 0) (bytes->list (ieee-double->bytes 4.0e-324)) @result{} ( 0 0 0 0 0 0 0 1) (bytes->list (ieee-double->bytes -inf.0)) @result{} (255 240 0 0 0 0 0 0) (bytes->list (ieee-double->bytes +inf.0)) @result{} (127 240 0 0 0 0 0 0) (bytes->list (ieee-double->bytes 0/0)) @result{} (127 248 0 0 0 0 0 0) @end example @subsubheading Byte Collation Order @noindent The @code{string