Provided by: nfstest_3.2-2_all bug

NAME

       formatstr - String Formatter object

DESCRIPTION

       Object  used  to  format  base  objects  into strings. It extends the functionality of the
       string Formatter object to include new modifiers for different objects.  Some of these new
       modifiers  include  conversion of strings into a sequence of hex characters, conversion of
       strings to their corresponding CRC32 or CRC16 representation.

CLASSES

   class FormatStr(string.Formatter)
       String Formatter object

       FormatStr() -> New string formatter object

       Usage:
           from formatstr import FormatStr

           x = FormatStr()

           out = x.format(fmt_spec, *args, **kwargs)
           out = x.vformat(fmt_spec, args, kwargs)

           Arguments should be surrounded by curly braces {}, anything that is
           not contained in curly braces is considered literal text which is
           copied unchanged to the output.
           Positional arguments to be used in the format spec are specified
           by their index: {0}, {1}, etc.
           Named arguments to be used in the format spec are specified by
           their name: {name1}, {name2}, etc.

           Modifiers are specified after the positional index or name preceded
           by a ":", "{0:#x}" -- display first positional argument in hex

       Examples:
           # Format string using positional arguments
           out = x.format("{0} -> {1}", a, b)

           # Format string using named arguments
           out = x.format("{key}: {value}", key="id", value=32)

           # Format string using both positional and named arguments
           out = x.format("{key}: {value}, {0}, {1}", a, b, key="id", value=32)

           # Use vformat() method instead when positional arguments are given
           # as a list and named arguments are given as a dictionary
           # The following examples show the same as above
           pos_args = [a, b]
           named_args = {"key":"id", "value":32}
           out = x.vformat("{0} -> {1}", pos_args)
           out = x.vformat("{key}: {value}", named_args)
           out = x.vformat("{key}: {value}, {0}, {1}", pos_args, named_args)

           # Display string in hex
           out = x.format("{0:x}", "hello")  # out = "68656c6c6f"

           # Display string in hex with leading 0x
           out = x.format("{0:#x}", "hello") # out = "0x68656c6c6f"

           # Display string in crc32
           out = x.format("{0:crc32}", "hello") # out = "0x3610a686"

           # Display string in crc16
           out = x.format("{0:crc16}", "hello") # out = "0x9c62"

           # Display length of item
           out = x.format("{0:len}", "hello") # out = 5

           # Substring using "@" format modifier
           # Format {0:@sindex[,eindex]} is like value[sindex:eindex]
           #   {0:@3} is like value[3:]
           #   {0:@3,5} is like value[3:5]
           #   {0:.5} is like value[:5]
           out = x.format("{0:@3}", "hello") # out = "lo"
           out = x.format("{0:.2}", "hello") # out = "he"

           # Conditionally display the first format if argument is not None,
           # else the second format is displayed
           # Format: {0:?format1:format2}
           out = x.format("{0:?tuple({0}, {1})}", 1, 2)    # out = "tuple(1, 2)"
           out = x.format("{0:?tuple({0}, {1})}", None, 2) # out = ""
           # Using 'else' format (including the escaping of else character):
           out = x.format("{0:?sid{0}:NONE}", 5)    # out = "sid:5"
           out = x.format("{0:?sid{0}:NONE}", None) # out = "NONE"

           # Nested formatting for strings, where processing is done in
           # reversed order -- process the last format first
           # Format: {0:fmtN:...:fmt2:fmt1}
           #   Display substring of 4 bytes as hex (substring then hex)
           out = x.format("{0:#x:.4}", "hello") # out = "0x68656c6c"
           #   Display first 4 bytes of string in hex (hex then substring)
           out = x.format("{0:.4:#x}", "hello") # out = "0x68"

           # Integer extension to display umax name instead of the value
           # Format: {0:max32|umax32|max64|umax64}
           # Output: if value matches the largest number in format given,
           #         the max name is displayed, else the value is displayed
           out = x.format("{0:max32}", 0x7fffffff) # out = "max32"
           out = x.format("{0:max32}", 35)         # out = "35"

           # Number extension to display the value as an ordinal number
           # Format: {0:ord[:s]}
           # Output: display value as an ordinal number,
           #         use the ":s" option to display the short name
           out = x.format("{0:ord}", 3)    # out = "third"
           out = x.format("{0:ord:s}", 3)  # out = "3rd"

           # Number extension to display the value with units
           # Format: {0:units[.precision]}
           # Output: display value as a string with units, by default
           #         precision=2 and all trailing zeros are removed.
           #         To force the precision use a negative number.
           out = x.format("{0:units}", 1024)    # out = "1KB"
           out = x.format("{0:units.4}", 2000)  # out = "1.9531KB"
           out = x.format("{0:units.-2}", 1024) # out = "1.00KB"

           # Date extension for int, long or float
           # Format: {0:date[:datefmt]}
           #         The spec given by datefmt is converted using strftime()
           #         The conversion spec "%q" is used to display microseconds
           # Output: display value as a date
           stime = 1416846041.521868
           out = x.format("{0:date}", stime) # out = "Mon Nov 24 09:20:41 2014"
           out = x.format("{0:date:%Y-%m-%d}", stime) # out = "2014-11-24"

           # List format specification
           # Format: {0[[:listfmt]:itemfmt]}
           #   If one format spec, it is applied to each item in the list
           #   If two format specs, the first is the item separator and
           #   the second is the spec applied to each item in the list
           alist = [1, 2, 3, 0xffffffff]
           out = x.format("{0:umax32}", alist)    # out = "[1, 2, 3, umax32]"
           out = x.format("{0:--:umax32}", alist) # out = "1--2--3--umax32"

       Methods defined here:
       ---------------------

       format_field(self, value, format_spec)
       Override original method to include modifier extensions

       get_value(self, key, args, kwargs)
       Override original method to return "" when the positional argument
       or named argument does not exist:
         x.format("0:{0}, 1:{1}, arg1:{arg1}, arg2:{arg2}", a, arg1=11)
         the {1} will return "" since there is only one positional argument
         the {arg2} will return "" since arg2 is not a named argument

FUNCTIONS

       crc16(value)
       Convert string to its crc16 representation

       crc32(value)
       Convert string to its crc32 representation

       hexstr(value)
       Convert string to its hex representation

       int_units(value)
       Convert string value with units to an integer

              value: String to convert

              Examples:
                  out = int_units("1MB") # out = 1048576

       ordinal_number(value, short=0)
       Return the ordinal number for the given integer

       plural(word, count=2)
       Return the plural of the word according to the given count

       str_time(value)
       Convert the number of seconds to a string with a format of "[h:]mm:ss"

              value: Time value to convert (in seconds)

              Examples:
                  out = str_time(123.0) # out = "02:03"
                  out = str_time(12345) # out = "3:25:45"

       str_units(value, precision=2)
       Convert number to a string value with units

              value: Number to convert

              precision:
                     Return string value with the following floating point
                     precision. By default no trailing zeros are returned
                     but if the precision is given as a negative number
                     the precision is enforced [default: 2]

BUGS

       No known bugs.

AUTHOR

       Jorge Mora (mora@netapp.com)