doc/syntax.rst - platform/external/fmtlib - Git at Google

 .. _syntax:

 ********************
 Format String Syntax
 ********************

 Formatting functions such as :ref:`fmt::format() <format>` and :ref:`fmt::print() <print>`
 use the same format string syntax described in this section.

 Format strings contain "replacement fields" surrounded by curly braces ``{}``.
 Anything that is not contained in braces is considered literal text, which is
 copied unchanged to the output.  If you need to include a brace character in the
 literal text, it can be escaped by doubling: ``{{`` and ``}}``.

 The grammar for a replacement field is as follows:

 .. productionlist:: sf
    replacement_field: "{" [`arg_id`] [":" `format_spec`] "}"
    arg_id: `integer` | `identifier`
    integer: `digit`+
    digit: "0"..."9"
    identifier: `id_start` `id_continue`*
    id_start: "a"..."z" | "A"..."Z" | "_"
    id_continue: `id_start` | `digit`

 In less formal terms, the replacement field can start with an *arg_id*
 that specifies the argument whose value is to be formatted and inserted into
 the output instead of the replacement field.
 The *arg_id* is optionally followed by a *format_spec*, which is preceded
 by a colon ``':'``.  These specify a non-default format for the replacement value.

 See also the :ref:`formatspec` section.

 If the numerical arg_ids in a format string are 0, 1, 2, ... in sequence,
 they can all be omitted (not just some) and the numbers 0, 1, 2, ... will be
 automatically inserted in that order.

 Some simple format string examples::

    "First, thou shalt count to {0}" // References the first argument
    "Bring me a {}"                  // Implicitly references the first argument
    "From {} to {}"                  // Same as "From {0} to {1}"

 The *format_spec* field contains a specification of how the value should be
 presented, including such details as field width, alignment, padding, decimal
 precision and so on.  Each value type can define its own "formatting
 mini-language" or interpretation of the *format_spec*.

 Most built-in types support a common formatting mini-language, which is
 described in the next section.

 A *format_spec* field can also include nested replacement fields in certain
 positions within it. These nested replacement fields can contain only an
 argument id; format specifications are not allowed. This allows the
 formatting of a value to be dynamically specified.

 See the :ref:`formatexamples` section for some examples.

 .. _formatspec:

 Format Specification Mini-Language
 ==================================

 "Format specifications" are used within replacement fields contained within a
 format string to define how individual values are presented (see
 :ref:`syntax`).  Each formattable type may define how the format
 specification is to be interpreted.

 Most built-in types implement the following options for format specifications,
 although some of the formatting options are only supported by the numeric types.

 The general form of a *standard format specifier* is:

 .. productionlist:: sf
    format_spec: [[`fill`]`align`][`sign`]["#"]["0"][`width`]["." `precision`][`type`]
    fill: <a character other than '{' or '}'>
    align: "<" | ">" | "=" | "^"
    sign: "+" | "-" | " "
    width: `integer` | "{" `arg_id` "}"
    precision: `integer` | "{" `arg_id` "}"
    type: `int_type` | "a" | "A" | "c" | "e" | "E" | "f" | "F" | "g" | "G" | "p" | "s"
    int_type: "b" | "B" | "d" | "n" | "o" | "x" | "X"

 The *fill* character can be any character other than '{' or '}'.  The presence
 of a fill character is signaled by the character following it, which must be
 one of the alignment options.  If the second character of *format_spec* is not
 a valid alignment option, then it is assumed that both the fill character and
 the alignment option are absent.

 The meaning of the various alignment options is as follows:

 +---------+----------------------------------------------------------+
 | Option  | Meaning                                                  |
 +=========+==========================================================+
 | ``'<'`` | Forces the field to be left-aligned within the available |
 |         | space (this is the default for most objects).            |
 +---------+----------------------------------------------------------+
 | ``'>'`` | Forces the field to be right-aligned within the          |
 |         | available space (this is the default for numbers).       |
 +---------+----------------------------------------------------------+
 | ``'='`` | Forces the padding to be placed after the sign (if any)  |
 |         | but before the digits.  This is used for printing fields |
 |         | in the form '+000000120'. This alignment option is only  |
 |         | valid for numeric types.                                 |
 +---------+----------------------------------------------------------+
 | ``'^'`` | Forces the field to be centered within the available     |
 |         | space.                                                   |
 +---------+----------------------------------------------------------+

 Note that unless a minimum field width is defined, the field width will always
 be the same size as the data to fill it, so that the alignment option has no
 meaning in this case.

 The *sign* option is only valid for number types, and can be one of the
 following:

 +---------+----------------------------------------------------------+
 | Option  | Meaning                                                  |
 +=========+==========================================================+
 | ``'+'`` | indicates that a sign should be used for both            |
 |         | positive as well as negative numbers.                    |
 +---------+----------------------------------------------------------+
 | ``'-'`` | indicates that a sign should be used only for negative   |
 |         | numbers (this is the default behavior).                  |
 +---------+----------------------------------------------------------+
 | space   | indicates that a leading space should be used on         |
 |         | positive numbers, and a minus sign on negative numbers.  |
 +---------+----------------------------------------------------------+

 The ``'#'`` option causes the "alternate form" to be used for the
 conversion.  The alternate form is defined differently for different
 types.  This option is only valid for integer and floating-point types.
 For integers, when binary, octal, or hexadecimal output is used, this
 option adds the prefix respective ``"0b"`` (``"0B"``), ``"0"``, or
 ``"0x"`` (``"0X"``) to the output value.  Whether the prefix is
 lower-case or upper-case is determined by the case of the type
 specifier, for example, the prefix ``"0x"`` is used for the type ``'x'``
 and ``"0X"`` is used for ``'X'``.  For floating-point numbers the
 alternate form causes the result of the conversion to always contain a
 decimal-point character, even if no digits follow it. Normally, a
 decimal-point character appears in the result of these conversions
 only if a digit follows it. In addition, for ``'g'`` and ``'G'``
 conversions, trailing zeros are not removed from the result.

 .. ifconfig:: False

    The ``','`` option signals the use of a comma for a thousands separator.
    For a locale aware separator, use the ``'n'`` integer presentation type
    instead.

 *width* is a decimal integer defining the minimum field width.  If not
 specified, then the field width will be determined by the content.

 Preceding the *width* field by a zero (``'0'``) character enables
 sign-aware zero-padding for numeric types.  This is equivalent to a *fill*
 character of ``'0'`` with an *alignment* type of ``'='``.

 The *precision* is a decimal number indicating how many digits should be
 displayed after the decimal point for a floating-point value formatted with
 ``'f'`` and ``'F'``, or before and after the decimal point for a floating-point
 value formatted with ``'g'`` or ``'G'``.  For non-number types the field
 indicates the maximum field size - in other words, how many characters will be
 used from the field content. The *precision* is not allowed for integer,
 character, Boolean, and pointer values.

 Finally, the *type* determines how the data should be presented.

 The available string presentation types are:

 +---------+----------------------------------------------------------+
 | Type    | Meaning                                                  |
 +=========+==========================================================+
 | ``'s'`` | String format. This is the default type for strings and  |
 |         | may be omitted.                                          |
 +---------+----------------------------------------------------------+
 | none    | The same as ``'s'``.                                     |
 +---------+----------------------------------------------------------+

 The available character presentation types are:

 +---------+----------------------------------------------------------+
 | Type    | Meaning                                                  |
 +=========+==========================================================+
 | ``'c'`` | Character format. This is the default type for           |
 |         | characters and may be omitted.                           |
 +---------+----------------------------------------------------------+
 | none    | The same as ``'c'``.                                     |
 +---------+----------------------------------------------------------+

 The available integer presentation types are:

 +---------+----------------------------------------------------------+
 | Type    | Meaning                                                  |
 +=========+==========================================================+
 | ``'b'`` | Binary format. Outputs the number in base 2. Using the   |
 |         | ``'#'`` option with this type adds the prefix ``"0b"``   |
 |         | to the output value.                                     |
 +---------+----------------------------------------------------------+
 | ``'B'`` | Binary format. Outputs the number in base 2. Using the   |
 |         | ``'#'`` option with this type adds the prefix ``"0B"``   |
 |         | to the output value.                                     |
 +---------+----------------------------------------------------------+
 | ``'d'`` | Decimal integer. Outputs the number in base 10.          |
 +---------+----------------------------------------------------------+
 | ``'o'`` | Octal format. Outputs the number in base 8.              |
 +---------+----------------------------------------------------------+
 | ``'x'`` | Hex format. Outputs the number in base 16, using         |
 |         | lower-case letters for the digits above 9. Using the     |
 |         | ``'#'`` option with this type adds the prefix ``"0x"``   |
 |         | to the output value.                                     |
 +---------+----------------------------------------------------------+
 | ``'X'`` | Hex format. Outputs the number in base 16, using         |
 |         | upper-case letters for the digits above 9. Using the     |
 |         | ``'#'`` option with this type adds the prefix ``"0X"``   |
 |         | to the output value.                                     |
 +---------+----------------------------------------------------------+
 | ``'n'`` | Number. This is the same as ``'d'``, except that it uses |
 |         | the current locale setting to insert the appropriate     |
 |         | number separator characters.                             |
 +---------+----------------------------------------------------------+
 | none    | The same as ``'d'``.                                     |
 +---------+----------------------------------------------------------+

 Integer presentation types can also be used with character and Boolean values.
 Boolean values are formatted using textual representation, either ``true`` or
 ``false``, if the presentation type is not specified.

 The available presentation types for floating-point values are:

 +---------+----------------------------------------------------------+
 | Type    | Meaning                                                  |
 +=========+==========================================================+
 | ``'a'`` | Hexadecimal floating point format. Prints the number in  |
 |         | base 16 with prefix ``"0x"`` and lower-case letters for  |
 |         | digits above 9. Uses ``'p'`` to indicate the exponent.   |
 +---------+----------------------------------------------------------+
 | ``'A'`` | Same as ``'a'`` except it uses upper-case letters for    |
 |         | the prefix, digits above 9 and to indicate the exponent. |
 +---------+----------------------------------------------------------+
 | ``'e'`` | Exponent notation. Prints the number in scientific       |
 |         | notation using the letter 'e' to indicate the exponent.  |
 +---------+----------------------------------------------------------+
 | ``'E'`` | Exponent notation. Same as ``'e'`` except it uses an     |
 |         | upper-case 'E' as the separator character.               |
 +---------+----------------------------------------------------------+
 | ``'f'`` | Fixed point. Displays the number as a fixed-point        |
 |         | number.                                                  |
 +---------+----------------------------------------------------------+
 | ``'F'`` | Fixed point. Same as ``'f'``, but converts ``nan`` to    |
 |         | ``NAN`` and ``inf`` to ``INF``.                          |
 +---------+----------------------------------------------------------+
 | ``'g'`` | General format.  For a given precision ``p >= 1``,       |
 |         | this rounds the number to ``p`` significant digits and   |
 |         | then formats the result in either fixed-point format     |
 |         | or in scientific notation, depending on its magnitude.   |
 |         |                                                          |
 |         | A precision of ``0`` is treated as equivalent to a       |
 |         | precision of ``1``.                                      |
 +---------+----------------------------------------------------------+
 | ``'G'`` | General format. Same as ``'g'`` except switches to       |
 |         | ``'E'`` if the number gets too large. The                |
 |         | representations of infinity and NaN are uppercased, too. |
 +---------+----------------------------------------------------------+
 | none    | The same as ``'g'``.                                     |
 +---------+----------------------------------------------------------+

 Floating-point formatting is locale-dependent.

 .. ifconfig:: False

    +---------+----------------------------------------------------------+
    |         | The precise rules are as follows: suppose that the       |
    |         | result formatted with presentation type ``'e'`` and      |
    |         | precision ``p-1`` would have exponent ``exp``.  Then     |
    |         | if ``-4 <= exp < p``, the number is formatted            |
    |         | with presentation type ``'f'`` and precision             |
    |         | ``p-1-exp``.  Otherwise, the number is formatted         |
    |         | with presentation type ``'e'`` and precision ``p-1``.    |
    |         | In both cases insignificant trailing zeros are removed   |
    |         | from the significand, and the decimal point is also      |
    |         | removed if there are no remaining digits following it.   |
    |         |                                                          |
    |         | Positive and negative infinity, positive and negative    |
    |         | zero, and nans, are formatted as ``inf``, ``-inf``,      |
    |         | ``0``, ``-0`` and ``nan`` respectively, regardless of    |
    |         | the precision.                                           |
    |         |                                                          |
    +---------+----------------------------------------------------------+

 The available presentation types for pointers are:

 +---------+----------------------------------------------------------+
 | Type    | Meaning                                                  |
 +=========+==========================================================+
 | ``'p'`` | Pointer format. This is the default type for             |
 |         | pointers and may be omitted.                             |
 +---------+----------------------------------------------------------+
 | none    | The same as ``'p'``.                                     |
 +---------+----------------------------------------------------------+

 .. _formatexamples:

 Format examples
 ===============

 This section contains examples of the format syntax and comparison with
 the printf formatting.

 In most of the cases the syntax is similar to the printf formatting, with the
 addition of the ``{}`` and with ``:`` used instead of ``%``.
 For example, ``"%03.2f"`` can be translated to ``"{:03.2f}"``.

 The new format syntax also supports new and different options, shown in the
 following examples.

 Accessing arguments by position::

    format("{0}, {1}, {2}", 'a', 'b', 'c');
    // Result: "a, b, c"
    format("{}, {}, {}", 'a', 'b', 'c');
    // Result: "a, b, c"
    format("{2}, {1}, {0}", 'a', 'b', 'c');
    // Result: "c, b, a"
    format("{0}{1}{0}", "abra", "cad");  // arguments' indices can be repeated
    // Result: "abracadabra"

 Aligning the text and specifying a width::

    format("{:<30}", "left aligned");
    // Result: "left aligned                  "
    format("{:>30}", "right aligned");
    // Result: "                 right aligned"
    format("{:^30}", "centered");
    // Result: "           centered           "
    format("{:*^30}", "centered");  // use '*' as a fill char
    // Result: "***********centered***********"

 Replacing ``%+f``, ``%-f``, and ``% f`` and specifying a sign::

    format("{:+f}; {:+f}", 3.14, -3.14);  // show it always
    // Result: "+3.140000; -3.140000"
    format("{: f}; {: f}", 3.14, -3.14);  // show a space for positive numbers
    // Result: " 3.140000; -3.140000"
    format("{:-f}; {:-f}", 3.14, -3.14);  // show only the minus -- same as '{:f}; {:f}'
    // Result: "3.140000; -3.140000"

 Replacing ``%x`` and ``%o`` and converting the value to different bases::

    format("int: {0:d};  hex: {0:x};  oct: {0:o}; bin: {0:b}", 42);
    // Result: "int: 42;  hex: 2a;  oct: 52; bin: 101010"
    // with 0x or 0 or 0b as prefix:
    format("int: {0:d};  hex: {0:#x};  oct: {0:#o};  bin: {0:#b}", 42);
    // Result: "int: 42;  hex: 0x2a;  oct: 052;  bin: 0b101010"

 .. ifconfig:: False

    Using the comma as a thousands separator::

       format("{:,}", 1234567890);
       '1,234,567,890'

    Expressing a percentage::

       >>> points = 19
       >>> total = 22
       Format("Correct answers: {:.2%}") << points/total)
       'Correct answers: 86.36%'

    Using type-specific formatting::

       >>> import datetime
       >>> d = datetime.datetime(2010, 7, 4, 12, 15, 58)
       Format("{:%Y-%m-%d %H:%M:%S}") << d)
       '2010-07-04 12:15:58'

    Nesting arguments and more complex examples::

       >>> for align, text in zip('<^>', ['left', 'center', 'right']):
       ...     '{0:{fill}{align}16}") << text, fill=align, align=align)
       ...
       'left<<<<<<<<<<<<'
       '^^^^^center^^^^^'
       '>>>>>>>>>>>right'
       >>>
       >>> octets = [192, 168, 0, 1]
       Format("{:02X}{:02X}{:02X}{:02X}") << *octets)
       'C0A80001'
       >>> int(_, 16)
       3232235521
       >>>
       >>> width = 5
       >>> for num in range(5,12):
       ...     for base in 'dXob':
       ...         print('{0:{width}{base}}") << num, base=base, width=width), end=' ')
       ...     print()
       ...
           5     5     5   101
           6     6     6   110
           7     7     7   111
           8     8    10  1000
           9     9    11  1001
          10     A    12  1010
          11     B    13  1011
	.. _syntax:

	********************
	Format String Syntax
	********************

	Formatting functions such as :ref:`fmt::format() <format>` and :ref:`fmt::print() <print>`
	use the same format string syntax described in this section.

	Format strings contain "replacement fields" surrounded by curly braces ``{}``.
	Anything that is not contained in braces is considered literal text, which is
	copied unchanged to the output. If you need to include a brace character in the
	literal text, it can be escaped by doubling: ``{{`` and ``}}``.

	The grammar for a replacement field is as follows:

	.. productionlist:: sf
	replacement_field: "{" [`arg_id`] [":" `format_spec`] "}"
	arg_id: `integer` \| `identifier`
	integer: `digit`+
	digit: "0"..."9"
	identifier: `id_start` `id_continue`*
	id_start: "a"..."z" \| "A"..."Z" \| "_"
	id_continue: `id_start` \| `digit`

	In less formal terms, the replacement field can start with an arg_id
	that specifies the argument whose value is to be formatted and inserted into
	the output instead of the replacement field.
	The arg_id is optionally followed by a format_spec, which is preceded
	by a colon ``':'``. These specify a non-default format for the replacement value.

	See also the :ref:`formatspec` section.

	If the numerical arg_ids in a format string are 0, 1, 2, ... in sequence,
	they can all be omitted (not just some) and the numbers 0, 1, 2, ... will be
	automatically inserted in that order.

	Some simple format string examples::

	"First, thou shalt count to {0}" // References the first argument
	"Bring me a {}" // Implicitly references the first argument
	"From {} to {}" // Same as "From {0} to {1}"

	The format_spec field contains a specification of how the value should be
	presented, including such details as field width, alignment, padding, decimal
	precision and so on. Each value type can define its own "formatting
	mini-language" or interpretation of the format_spec.

	Most built-in types support a common formatting mini-language, which is
	described in the next section.

	A format_spec field can also include nested replacement fields in certain
	positions within it. These nested replacement fields can contain only an
	argument id; format specifications are not allowed. This allows the
	formatting of a value to be dynamically specified.

	See the :ref:`formatexamples` section for some examples.

	.. _formatspec:

	Format Specification Mini-Language
	==================================

	"Format specifications" are used within replacement fields contained within a
	format string to define how individual values are presented (see
	:ref:`syntax`). Each formattable type may define how the format
	specification is to be interpreted.

	Most built-in types implement the following options for format specifications,
	although some of the formatting options are only supported by the numeric types.

	The general form of a standard format specifier is:

	.. productionlist:: sf
	format_spec: [[`fill`]`align`][`sign`]["#"]["0"][`width`]["." `precision`][`type`]
	fill: <a character other than '{' or '}'>
	align: "<" \| ">" \| "=" \| "^"
	sign: "+" \| "-" \| " "
	width: `integer` \| "{" `arg_id` "}"
	precision: `integer` \| "{" `arg_id` "}"
	type: `int_type` \| "a" \| "A" \| "c" \| "e" \| "E" \| "f" \| "F" \| "g" \| "G" \| "p" \| "s"
	int_type: "b" \| "B" \| "d" \| "n" \| "o" \| "x" \| "X"

	The fill character can be any character other than '{' or '}'. The presence
	of a fill character is signaled by the character following it, which must be
	one of the alignment options. If the second character of format_spec is not
	a valid alignment option, then it is assumed that both the fill character and
	the alignment option are absent.

	The meaning of the various alignment options is as follows:

	+---------+----------------------------------------------------------+
	\| Option \| Meaning \|
	+=========+==========================================================+
	\| ``'<'`` \| Forces the field to be left-aligned within the available \|
	\| \| space (this is the default for most objects). \|
	+---------+----------------------------------------------------------+
	\| ``'>'`` \| Forces the field to be right-aligned within the \|
	\| \| available space (this is the default for numbers). \|
	+---------+----------------------------------------------------------+
	\| ``'='`` \| Forces the padding to be placed after the sign (if any) \|
	\| \| but before the digits. This is used for printing fields \|
	\| \| in the form '+000000120'. This alignment option is only \|
	\| \| valid for numeric types. \|
	+---------+----------------------------------------------------------+
	\| ``'^'`` \| Forces the field to be centered within the available \|
	\| \| space. \|
	+---------+----------------------------------------------------------+

	Note that unless a minimum field width is defined, the field width will always
	be the same size as the data to fill it, so that the alignment option has no
	meaning in this case.

	The sign option is only valid for number types, and can be one of the
	following:

	+---------+----------------------------------------------------------+
	\| Option \| Meaning \|
	+=========+==========================================================+
	\| ``'+'`` \| indicates that a sign should be used for both \|
	\| \| positive as well as negative numbers. \|
	+---------+----------------------------------------------------------+
	\| ``'-'`` \| indicates that a sign should be used only for negative \|
	\| \| numbers (this is the default behavior). \|
	+---------+----------------------------------------------------------+
	\| space \| indicates that a leading space should be used on \|
	\| \| positive numbers, and a minus sign on negative numbers. \|
	+---------+----------------------------------------------------------+

	The ``'#'`` option causes the "alternate form" to be used for the
	conversion. The alternate form is defined differently for different
	types. This option is only valid for integer and floating-point types.
	For integers, when binary, octal, or hexadecimal output is used, this
	option adds the prefix respective ``"0b"`` (``"0B"``), ``"0"``, or
	``"0x"`` (``"0X"``) to the output value. Whether the prefix is
	lower-case or upper-case is determined by the case of the type
	specifier, for example, the prefix ``"0x"`` is used for the type ``'x'``
	and ``"0X"`` is used for ``'X'``. For floating-point numbers the
	alternate form causes the result of the conversion to always contain a
	decimal-point character, even if no digits follow it. Normally, a
	decimal-point character appears in the result of these conversions
	only if a digit follows it. In addition, for ``'g'`` and ``'G'``
	conversions, trailing zeros are not removed from the result.

	.. ifconfig:: False

	The ``','`` option signals the use of a comma for a thousands separator.
	For a locale aware separator, use the ``'n'`` integer presentation type
	instead.

	width is a decimal integer defining the minimum field width. If not
	specified, then the field width will be determined by the content.

	Preceding the width field by a zero (``'0'``) character enables
	sign-aware zero-padding for numeric types. This is equivalent to a fill
	character of ``'0'`` with an alignment type of ``'='``.

	The precision is a decimal number indicating how many digits should be
	displayed after the decimal point for a floating-point value formatted with
	``'f'`` and ``'F'``, or before and after the decimal point for a floating-point
	value formatted with ``'g'`` or ``'G'``. For non-number types the field
	indicates the maximum field size - in other words, how many characters will be
	used from the field content. The precision is not allowed for integer,
	character, Boolean, and pointer values.

	Finally, the type determines how the data should be presented.

	The available string presentation types are:

	+---------+----------------------------------------------------------+
	\| Type \| Meaning \|
	+=========+==========================================================+
	\| ``'s'`` \| String format. This is the default type for strings and \|
	\| \| may be omitted. \|
	+---------+----------------------------------------------------------+
	\| none \| The same as ``'s'``. \|
	+---------+----------------------------------------------------------+

	The available character presentation types are:

	+---------+----------------------------------------------------------+
	\| Type \| Meaning \|
	+=========+==========================================================+
	\| ``'c'`` \| Character format. This is the default type for \|
	\| \| characters and may be omitted. \|
	+---------+----------------------------------------------------------+
	\| none \| The same as ``'c'``. \|
	+---------+----------------------------------------------------------+

	The available integer presentation types are:

	+---------+----------------------------------------------------------+
	\| Type \| Meaning \|
	+=========+==========================================================+
	\| ``'b'`` \| Binary format. Outputs the number in base 2. Using the \|
	\| \| ``'#'`` option with this type adds the prefix ``"0b"`` \|
	\| \| to the output value. \|
	+---------+----------------------------------------------------------+
	\| ``'B'`` \| Binary format. Outputs the number in base 2. Using the \|
	\| \| ``'#'`` option with this type adds the prefix ``"0B"`` \|
	\| \| to the output value. \|
	+---------+----------------------------------------------------------+
	\| ``'d'`` \| Decimal integer. Outputs the number in base 10. \|
	+---------+----------------------------------------------------------+
	\| ``'o'`` \| Octal format. Outputs the number in base 8. \|
	+---------+----------------------------------------------------------+
	\| ``'x'`` \| Hex format. Outputs the number in base 16, using \|
	\| \| lower-case letters for the digits above 9. Using the \|
	\| \| ``'#'`` option with this type adds the prefix ``"0x"`` \|
	\| \| to the output value. \|
	+---------+----------------------------------------------------------+
	\| ``'X'`` \| Hex format. Outputs the number in base 16, using \|
	\| \| upper-case letters for the digits above 9. Using the \|
	\| \| ``'#'`` option with this type adds the prefix ``"0X"`` \|
	\| \| to the output value. \|
	+---------+----------------------------------------------------------+
	\| ``'n'`` \| Number. This is the same as ``'d'``, except that it uses \|
	\| \| the current locale setting to insert the appropriate \|
	\| \| number separator characters. \|
	+---------+----------------------------------------------------------+
	\| none \| The same as ``'d'``. \|
	+---------+----------------------------------------------------------+

	Integer presentation types can also be used with character and Boolean values.
	Boolean values are formatted using textual representation, either ``true`` or
	``false``, if the presentation type is not specified.

	The available presentation types for floating-point values are:

	+---------+----------------------------------------------------------+
	\| Type \| Meaning \|
	+=========+==========================================================+
	\| ``'a'`` \| Hexadecimal floating point format. Prints the number in \|
	\| \| base 16 with prefix ``"0x"`` and lower-case letters for \|
	\| \| digits above 9. Uses ``'p'`` to indicate the exponent. \|
	+---------+----------------------------------------------------------+
	\| ``'A'`` \| Same as ``'a'`` except it uses upper-case letters for \|
	\| \| the prefix, digits above 9 and to indicate the exponent. \|
	+---------+----------------------------------------------------------+
	\| ``'e'`` \| Exponent notation. Prints the number in scientific \|
	\| \| notation using the letter 'e' to indicate the exponent. \|
	+---------+----------------------------------------------------------+
	\| ``'E'`` \| Exponent notation. Same as ``'e'`` except it uses an \|
	\| \| upper-case 'E' as the separator character. \|
	+---------+----------------------------------------------------------+
	\| ``'f'`` \| Fixed point. Displays the number as a fixed-point \|
	\| \| number. \|
	+---------+----------------------------------------------------------+
	\| ``'F'`` \| Fixed point. Same as ``'f'``, but converts ``nan`` to \|
	\| \| ``NAN`` and ``inf`` to ``INF``. \|
	+---------+----------------------------------------------------------+
	\| ``'g'`` \| General format. For a given precision ``p >= 1``, \|
	\| \| this rounds the number to ``p`` significant digits and \|
	\| \| then formats the result in either fixed-point format \|
	\| \| or in scientific notation, depending on its magnitude. \|
	\| \| \|
	\| \| A precision of ``0`` is treated as equivalent to a \|
	\| \| precision of ``1``. \|
	+---------+----------------------------------------------------------+
	\| ``'G'`` \| General format. Same as ``'g'`` except switches to \|
	\| \| ``'E'`` if the number gets too large. The \|
	\| \| representations of infinity and NaN are uppercased, too. \|
	+---------+----------------------------------------------------------+
	\| none \| The same as ``'g'``. \|
	+---------+----------------------------------------------------------+

	Floating-point formatting is locale-dependent.

	.. ifconfig:: False

	+---------+----------------------------------------------------------+
	\| \| The precise rules are as follows: suppose that the \|
	\| \| result formatted with presentation type ``'e'`` and \|
	\| \| precision ``p-1`` would have exponent ``exp``. Then \|
	\| \| if ``-4 <= exp < p``, the number is formatted \|
	\| \| with presentation type ``'f'`` and precision \|
	\| \| ``p-1-exp``. Otherwise, the number is formatted \|
	\| \| with presentation type ``'e'`` and precision ``p-1``. \|
	\| \| In both cases insignificant trailing zeros are removed \|
	\| \| from the significand, and the decimal point is also \|
	\| \| removed if there are no remaining digits following it. \|
	\| \| \|
	\| \| Positive and negative infinity, positive and negative \|
	\| \| zero, and nans, are formatted as ``inf``, ``-inf``, \|
	\| \| ``0``, ``-0`` and ``nan`` respectively, regardless of \|
	\| \| the precision. \|
	\| \| \|
	+---------+----------------------------------------------------------+

	The available presentation types for pointers are:

	+---------+----------------------------------------------------------+
	\| Type \| Meaning \|
	+=========+==========================================================+
	\| ``'p'`` \| Pointer format. This is the default type for \|
	\| \| pointers and may be omitted. \|
	+---------+----------------------------------------------------------+
	\| none \| The same as ``'p'``. \|
	+---------+----------------------------------------------------------+

	.. _formatexamples:

	Format examples
	===============

	This section contains examples of the format syntax and comparison with
	the printf formatting.

	In most of the cases the syntax is similar to the printf formatting, with the
	addition of the ``{}`` and with ``:`` used instead of ``%``.
	For example, ``"%03.2f"`` can be translated to ``"{:03.2f}"``.

	The new format syntax also supports new and different options, shown in the
	following examples.

	Accessing arguments by position::

	format("{0}, {1}, {2}", 'a', 'b', 'c');
	// Result: "a, b, c"
	format("{}, {}, {}", 'a', 'b', 'c');
	// Result: "a, b, c"
	format("{2}, {1}, {0}", 'a', 'b', 'c');
	// Result: "c, b, a"
	format("{0}{1}{0}", "abra", "cad"); // arguments' indices can be repeated
	// Result: "abracadabra"

	Aligning the text and specifying a width::

	format("{:<30}", "left aligned");
	// Result: "left aligned "
	format("{:>30}", "right aligned");
	// Result: " right aligned"
	format("{:^30}", "centered");
	// Result: " centered "
	format("{:^30}", "centered"); // use '' as a fill char
	// Result: "*********centered*********"

	Replacing ``%+f``, ``%-f``, and ``% f`` and specifying a sign::

	format("{:+f}; {:+f}", 3.14, -3.14); // show it always
	// Result: "+3.140000; -3.140000"
	format("{: f}; {: f}", 3.14, -3.14); // show a space for positive numbers
	// Result: " 3.140000; -3.140000"
	format("{:-f}; {:-f}", 3.14, -3.14); // show only the minus -- same as '{:f}; {:f}'
	// Result: "3.140000; -3.140000"

	Replacing ``%x`` and ``%o`` and converting the value to different bases::

	format("int: {0:d}; hex: {0:x}; oct: {0:o}; bin: {0:b}", 42);
	// Result: "int: 42; hex: 2a; oct: 52; bin: 101010"
	// with 0x or 0 or 0b as prefix:
	format("int: {0:d}; hex: {0:#x}; oct: {0:#o}; bin: {0:#b}", 42);
	// Result: "int: 42; hex: 0x2a; oct: 052; bin: 0b101010"

	.. ifconfig:: False

	Using the comma as a thousands separator::

	format("{:,}", 1234567890);
	'1,234,567,890'

	Expressing a percentage::

	>>> points = 19
	>>> total = 22
	Format("Correct answers: {:.2%}") << points/total)
	'Correct answers: 86.36%'

	Using type-specific formatting::

	>>> import datetime
	>>> d = datetime.datetime(2010, 7, 4, 12, 15, 58)
	Format("{:%Y-%m-%d %H:%M:%S}") << d)
	'2010-07-04 12:15:58'

	Nesting arguments and more complex examples::

	>>> for align, text in zip('<^>', ['left', 'center', 'right']):
	... '{0:{fill}{align}16}") << text, fill=align, align=align)
	...
	'left<<<<<<<<<<<<'
	'^^^^^center^^^^^'
	'>>>>>>>>>>>right'
	>>>
	>>> octets = [192, 168, 0, 1]
	Format("{:02X}{:02X}{:02X}{:02X}") << *octets)
	'C0A80001'
	>>> int(_, 16)
	3232235521
	>>>
	>>> width = 5
	>>> for num in range(5,12):
	... for base in 'dXob':
	... print('{0:{width}{base}}") << num, base=base, width=width), end=' ')
	... print()
	...
	5 5 5 101
	6 6 6 110
	7 7 7 111
	8 8 10 1000
	9 9 11 1001
	10 A 12 1010
	11 B 13 1011