The
snprintb() function formats a bitmask into a mnemonic form suitable for printing.
This conversion is useful for decoding bit fields in device registers. It formats the integer
val into the buffer
buf, of size
buflen, using a specified radix and an interpretation of the bits within that integer as though they were flags. The buffer is always NUL-terminated. If the buffer
buf is too small to hold the formatted output,
snprintb() will fill as much as it can, and return the number of bytes that would have written if the buffer was long enough excluding the terminating NUL.
The decoding directive string
fmt describes how the bitfield is to be interpreted and displayed. It follows two possible syntaxes, referred to as “old” and “new”. The main advantage of the “new” formatting is that it is capable of handling multi-bit fields.
The first character of
fmt may be
\177, indicating that the remainder of the format string follows the “new” syntax. The second character (the first for the old format) is a binary character representation of the output numeral base in which the bitfield will be printed before it is decoded. Recognized radix values (in C escape-character format) are
\10 (octal),
\12 (decimal), and
\20 (hexadecimal).
The remaining characters in
fmt are interpreted as a list of bit-position–description pairs. From here the syntaxes diverge.
The “old” format syntax is series of bit-position–description pairs. Each begins with a binary character value that represents the position of the bit being described. A bit position value of one describes the least significant bit. Whereas a position value of 32 (octal 40, hexadecimal 20, the ASCII space character) describes the most significant bit.
The remaining characters in a bit-position–description pair are the characters to print should the bit being described be set. Description strings are delimited by the next bit position value character encountered (distinguishable by its value being ≤ 32), or the end of the decoding directive string itself.
For the “new” format syntax, a bit-position–description begins with a field type followed by a binary bit-position and possibly a field length. The least significant bit is bit-position zero, unlike the “old” syntax where it is one.
b\B
Describes a bit position. The bit-position B indicates the corresponding bit, as in the “old” format.
f\B\L
Describes a multi-bit field beginning at bit-position B and having a bit-length of L. The remaining characters are printed as a description of the field followed by ‘=' and the value of the field. The value of the field is printed in the base specified as the second character of the decoding directive string fmt.
F\B\L
Describes a multi-bit field like ‘f', but just extracts the value for use with the ‘=' and ‘:' formatting directives described below.
=\V
The field previously extracted by the last ‘f' or ‘F' operator is compared to the byte ‘V' (for values 0 through 255). If they are equal, ‘=' followed by the string following ‘V' is printed. This and the ‘:' operator may be repeated to annotate multiple possible values.
:\V
Operates like the ‘=' operator, but omits the leading ‘='.
Finally, each field is delimited by a NUL (‘\0') character. By convention, the format string has an additional NUL character at the end, following that delimiting the last bit-position–description pair.
The
snprintb_m() function accepts an additional
max argument. If this argument is zero, the
snprintb_m() function returns exactly the same results in the
buf as the
snprintb() function. If the
max argument is present and has a non-zero value, it represents the maximum length of a formatted string. If the formatted string would require more than
max characters, the
snprintb_m() function returns multiple formatted strings in the output buffer
buf. Each string is NUL-terminated, and the last string is followed by an additional NUL character (or, if you prefer, a zero-length string).