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479 lines
22 KiB
ReStructuredText
479 lines
22 KiB
ReStructuredText
.. highlight:: c++
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.. ifconfig:: False
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.. _string-formatting:
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String Formatting
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-----------------
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The built-in string class provides the ability to do complex variable
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substitutions and value formatting via the :func:`format` method described in
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:pep:`3101`. The :class:`Formatter` class in the :mod:`format` module allows
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you to create and customize your own string formatting behaviors using the same
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implementation as the built-in :meth:`format` method.
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.. class:: Formatter
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The :class:`Formatter` class has the following public methods:
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.. method:: format(format_string, *args, **kwargs)
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:meth:`format` is the primary API method. It takes a format string and
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an arbitrary set of positional and keyword arguments.
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:meth:`format` is just a wrapper that calls :meth:`vformat`.
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.. method:: vformat(format_string, args, kwargs)
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This function does the actual work of formatting. It is exposed as a
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separate function for cases where you want to pass in a predefined
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dictionary of arguments, rather than unpacking and repacking the
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dictionary as individual arguments using the ``*args`` and ``**kwds``
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syntax. :meth:`vformat` does the work of breaking up the format string
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into character data and replacement fields. It calls the various
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methods described below.
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In addition, the :class:`Formatter` defines a number of methods that are
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intended to be replaced by subclasses:
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.. method:: parse(format_string)
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Loop over the format_string and return an iterable of tuples
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(*literal_text*, *field_name*, *format_spec*, *conversion*). This is used
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by :meth:`vformat` to break the string into either literal text, or
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replacement fields.
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The values in the tuple conceptually represent a span of literal text
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followed by a single replacement field. If there is no literal text
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(which can happen if two replacement fields occur consecutively), then
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*literal_text* will be a zero-length string. If there is no replacement
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field, then the values of *field_name*, *format_spec* and *conversion*
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will be ``None``.
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.. method:: get_field(field_name, args, kwargs)
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Given *field_name* as returned by :meth:`parse` (see above), convert it to
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an object to be formatted. Returns a tuple (obj, used_key). The default
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version takes strings of the form defined in :pep:`3101`, such as
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"0[name]" or "label.title". *args* and *kwargs* are as passed in to
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:meth:`vformat`. The return value *used_key* has the same meaning as the
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*key* parameter to :meth:`get_value`.
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.. method:: get_value(key, args, kwargs)
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Retrieve a given field value. The *key* argument will be either an
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integer or a string. If it is an integer, it represents the index of the
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positional argument in *args*; if it is a string, then it represents a
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named argument in *kwargs*.
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The *args* parameter is set to the list of positional arguments to
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:meth:`vformat`, and the *kwargs* parameter is set to the dictionary of
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keyword arguments.
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For compound field names, these functions are only called for the first
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component of the field name; Subsequent components are handled through
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normal attribute and indexing operations.
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So for example, the field expression '0.name' would cause
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:meth:`get_value` to be called with a *key* argument of 0. The ``name``
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attribute will be looked up after :meth:`get_value` returns by calling the
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built-in :func:`getattr` function.
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If the index or keyword refers to an item that does not exist, then an
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:exc:`IndexError` or :exc:`KeyError` should be raised.
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.. method:: check_unused_args(used_args, args, kwargs)
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Implement checking for unused arguments if desired. The arguments to this
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function is the set of all argument keys that were actually referred to in
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the format string (integers for positional arguments, and strings for
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named arguments), and a reference to the *args* and *kwargs* that was
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passed to vformat. The set of unused args can be calculated from these
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parameters. :meth:`check_unused_args` is assumed to raise an exception if
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the check fails.
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.. method:: format_field(value, format_spec)
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:meth:`format_field` simply calls the global :func:`format` built-in. The
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method is provided so that subclasses can override it.
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.. method:: convert_field(value, conversion)
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Converts the value (returned by :meth:`get_field`) given a conversion type
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(as in the tuple returned by the :meth:`parse` method). The default
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version understands 's' (str), 'r' (repr) and 'a' (ascii) conversion
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types.
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.. _formatstrings:
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Format String Syntax
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--------------------
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The :meth:`Format` function and the :class:`Formatter` class share the same
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syntax for format strings.
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Format strings contain "replacement fields" surrounded by curly braces ``{}``.
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Anything that is not contained in braces is considered literal text, which is
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copied unchanged to the output. If you need to include a brace character in the
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literal text, it can be escaped by doubling: ``{{`` and ``}}``.
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The grammar for a replacement field is as follows:
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.. productionlist:: sf
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replacement_field: "{" [`arg_index`] [":" `format_spec`] "}"
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arg_index: `integer`
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In less formal terms, the replacement field can start with an *arg_index*
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that specifies the argument whose value is to be formatted and inserted into
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the output instead of the replacement field.
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The *arg_index* is optionally followed by a *format_spec*, which is preceded
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by a colon ``':'``. These specify a non-default format for the replacement value.
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See also the :ref:`formatspec` section.
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If the numerical arg_indexes in a format string are 0, 1, 2, ... in sequence,
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they can all be omitted (not just some) and the numbers 0, 1, 2, ... will be
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automatically inserted in that order.
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Some simple format string examples::
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"First, thou shalt count to {0}" // References the first argument
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"Bring me a {}" // Implicitly references the first argument
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"From {} to {}" // Same as "From {0} to {1}"
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The *format_spec* field contains a specification of how the value should be
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presented, including such details as field width, alignment, padding, decimal
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precision and so on. Each value type can define its own "formatting
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mini-language" or interpretation of the *format_spec*.
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Most built-in types support a common formatting mini-language, which is
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described in the next section.
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A *format_spec* field can also include nested replacement fields within it.
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These nested replacement fields can contain only an argument index;
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format specifications are not allowed. Formatting is performed as if the
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replacement fields within the format_spec are substituted before the
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*format_spec* string is interpreted. This allows the formatting of a value
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to be dynamically specified.
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See the :ref:`formatexamples` section for some examples.
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.. _formatspec:
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Format Specification Mini-Language
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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"Format specifications" are used within replacement fields contained within a
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format string to define how individual values are presented (see
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:ref:`formatstrings`). They can also be passed directly to the
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:func:`Format` function. Each formattable type may define how the format
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specification is to be interpreted.
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Most built-in types implement the following options for format specifications,
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although some of the formatting options are only supported by the numeric types.
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The general form of a *standard format specifier* is:
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.. productionlist:: sf
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format_spec: [[`fill`]`align`][`sign`]["#"]["0"][`width`]["." `precision`][`type`]
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fill: <a character other than '{' or '}'>
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align: "<" | ">" | "=" | "^"
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sign: "+" | "-" | " "
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width: `integer`
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precision: `integer` | "{" `arg_index` "}"
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type: "c" | "d" | "e" | "E" | "f" | "F" | "g" | "G" | "o" | "p" | s" | "x" | "X"
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The *fill* character can be any character other than '{' or '}'. The presence
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of a fill character is signaled by the character following it, which must be
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one of the alignment options. If the second character of *format_spec* is not
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a valid alignment option, then it is assumed that both the fill character and
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the alignment option are absent.
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The meaning of the various alignment options is as follows:
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+---------+----------------------------------------------------------+
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| Option | Meaning |
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+=========+==========================================================+
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| ``'<'`` | Forces the field to be left-aligned within the available |
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| | space (this is the default for most objects). |
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+---------+----------------------------------------------------------+
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| ``'>'`` | Forces the field to be right-aligned within the |
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| | available space (this is the default for numbers). |
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+---------+----------------------------------------------------------+
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| ``'='`` | Forces the padding to be placed after the sign (if any) |
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| | but before the digits. This is used for printing fields |
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| | in the form '+000000120'. This alignment option is only |
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| | valid for numeric types. |
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+---------+----------------------------------------------------------+
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| ``'^'`` | Forces the field to be centered within the available |
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| | space. |
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+---------+----------------------------------------------------------+
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Note that unless a minimum field width is defined, the field width will always
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be the same size as the data to fill it, so that the alignment option has no
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meaning in this case.
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The *sign* option is only valid for number types, and can be one of the
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following:
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+---------+----------------------------------------------------------+
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| Option | Meaning |
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+=========+==========================================================+
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| ``'+'`` | indicates that a sign should be used for both |
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| | positive as well as negative numbers. |
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+---------+----------------------------------------------------------+
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| ``'-'`` | indicates that a sign should be used only for negative |
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| | numbers (this is the default behavior). |
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+---------+----------------------------------------------------------+
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| space | indicates that a leading space should be used on |
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| | positive numbers, and a minus sign on negative numbers. |
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+---------+----------------------------------------------------------+
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The ``'#'`` option causes the "alternate form" to be used for the
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conversion. The alternate form is defined differently for different
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types. This option is only valid for integer and floating-point types.
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For integers, when octal, or hexadecimal output
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is used, this option adds the prefix respective ``'0'``, or
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``'0x'`` to the output value. For floating-point numbers the
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alternate form causes the result of the conversion to always contain a
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decimal-point character, even if no digits follow it. Normally, a
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decimal-point character appears in the result of these conversions
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only if a digit follows it. In addition, for ``'g'`` and ``'G'``
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conversions, trailing zeros are not removed from the result.
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.. ifconfig:: False
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The ``','`` option signals the use of a comma for a thousands separator.
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For a locale aware separator, use the ``'n'`` integer presentation type
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instead.
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*width* is a decimal integer defining the minimum field width. If not
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specified, then the field width will be determined by the content.
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Preceding the *width* field by a zero (``'0'``) character enables
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sign-aware zero-padding for numeric types. This is equivalent to a *fill*
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character of ``'0'`` with an *alignment* type of ``'='``.
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The *precision* is a decimal number indicating how many digits should be
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displayed after the decimal point for a floating point value formatted with
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``'f'`` and ``'F'``, or before and after the decimal point for a floating point
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value formatted with ``'g'`` or ``'G'``. For non-number types the field
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indicates the maximum field size - in other words, how many characters will be
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used from the field content. The *precision* is not allowed for integer values.
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Finally, the *type* determines how the data should be presented.
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The available string presentation types are:
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+---------+----------------------------------------------------------+
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| Type | Meaning |
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+=========+==========================================================+
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| ``'s'`` | String format. This is the default type for strings and |
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| | may be omitted. |
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+---------+----------------------------------------------------------+
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| none | The same as ``'s'``. |
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+---------+----------------------------------------------------------+
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The available character presentation types are:
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+---------+----------------------------------------------------------+
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| Type | Meaning |
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+=========+==========================================================+
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| ``'c'`` | Character format. This is the default type for |
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| | characters and may be omitted. |
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+---------+----------------------------------------------------------+
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| none | The same as ``'c'``. |
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+---------+----------------------------------------------------------+
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The available integer presentation types are:
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+---------+----------------------------------------------------------+
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| Type | Meaning |
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+=========+==========================================================+
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| ``'d'`` | Decimal Integer. Outputs the number in base 10. |
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+---------+----------------------------------------------------------+
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| ``'o'`` | Octal format. Outputs the number in base 8. |
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+---------+----------------------------------------------------------+
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| ``'x'`` | Hex format. Outputs the number in base 16, using |
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| | lower-case letters for the digits above 9. |
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+---------+----------------------------------------------------------+
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| ``'X'`` | Hex format. Outputs the number in base 16, using |
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| | upper-case letters for the digits above 9. |
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+---------+----------------------------------------------------------+
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| none | The same as ``'d'``. |
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+---------+----------------------------------------------------------+
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The available presentation types for floating point values are:
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+---------+----------------------------------------------------------+
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| Type | Meaning |
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+=========+==========================================================+
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| ``'e'`` | Exponent notation. Prints the number in scientific |
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| | notation using the letter 'e' to indicate the exponent. |
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+---------+----------------------------------------------------------+
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| ``'E'`` | Exponent notation. Same as ``'e'`` except it uses an |
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| | upper case 'E' as the separator character. |
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+---------+----------------------------------------------------------+
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| ``'f'`` | Fixed point. Displays the number as a fixed-point |
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| | number. |
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+---------+----------------------------------------------------------+
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| ``'F'`` | Fixed point. Same as ``'f'``, but converts ``nan`` to |
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| | ``NAN`` and ``inf`` to ``INF``. |
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+---------+----------------------------------------------------------+
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| ``'g'`` | General format. For a given precision ``p >= 1``, |
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| | this rounds the number to ``p`` significant digits and |
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| | then formats the result in either fixed-point format |
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| | or in scientific notation, depending on its magnitude. |
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| | |
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| | A precision of ``0`` is treated as equivalent to a |
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| | precision of ``1``. |
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+---------+----------------------------------------------------------+
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| ``'G'`` | General format. Same as ``'g'`` except switches to |
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| | ``'E'`` if the number gets too large. The |
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| | representations of infinity and NaN are uppercased, too. |
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+---------+----------------------------------------------------------+
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| none | The same as ``'g'``. |
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+---------+----------------------------------------------------------+
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.. ifconfig:: False
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+---------+----------------------------------------------------------+
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| | The precise rules are as follows: suppose that the |
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| | result formatted with presentation type ``'e'`` and |
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| | precision ``p-1`` would have exponent ``exp``. Then |
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| | if ``-4 <= exp < p``, the number is formatted |
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| | with presentation type ``'f'`` and precision |
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| | ``p-1-exp``. Otherwise, the number is formatted |
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| | with presentation type ``'e'`` and precision ``p-1``. |
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| | In both cases insignificant trailing zeros are removed |
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| | from the significand, and the decimal point is also |
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| | removed if there are no remaining digits following it. |
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| | |
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| | Positive and negative infinity, positive and negative |
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| | zero, and nans, are formatted as ``inf``, ``-inf``, |
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| | ``0``, ``-0`` and ``nan`` respectively, regardless of |
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| | the precision. |
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| | |
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+---------+----------------------------------------------------------+
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The available presentation types for pointers are:
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+---------+----------------------------------------------------------+
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| Type | Meaning |
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+=========+==========================================================+
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| ``'p'`` | Pointer format. This is the default type for |
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| | pointers and may be omitted. |
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+---------+----------------------------------------------------------+
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| none | The same as ``'p'``. |
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+---------+----------------------------------------------------------+
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.. _formatexamples:
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Format examples
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^^^^^^^^^^^^^^^
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This section contains examples of the format syntax and comparison with
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the printf formatting.
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In most of the cases the syntax is similar to the printf formatting, with the
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addition of the ``{}`` and with ``:`` used instead of ``%``.
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For example, ``"%03.2f"`` can be translated to ``"{:03.2f}"``.
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The new format syntax also supports new and different options, shown in the
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following examples.
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Accessing arguments by position::
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Format("{0}, {1}, {2}") << 'a' << 'b' << 'c';
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// Result: "a, b, c"
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Format("{}, {}, {}") << 'a' << 'b' << 'c';
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// Result: "a, b, c"
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Format("{2}, {1}, {0}") << 'a' << 'b' << 'c';
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// Result: "c, b, a"
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Format("{0}{1}{0}" << "abra" << "cad"; // arguments' indices can be repeated
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// Result: "abracadabra"
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Aligning the text and specifying a width::
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Format("{:<30}") << "left aligned";
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// Result: "left aligned "
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Format("{:>30}") << "right aligned"
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// Result: " right aligned"
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Format("{:^30}") << "centered"
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// Result: " centered "
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Format("{:*^30}") << "centered" // use '*' as a fill char
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// Result: "***********centered***********"
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Replacing ``%+f``, ``%-f``, and ``% f`` and specifying a sign::
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Format("{:+f}; {:+f}") << 3.14 << -3.14; // show it always
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// Result: "+3.140000; -3.140000"
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Format("{: f}; {: f}") << 3.14 << -3.14; // show a space for positive numbers
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// Result: " 3.140000; -3.140000"
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Format("{:-f}; {:-f}") << 3.14 << -3.14; // show only the minus -- same as '{:f}; {:f}'
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// Result: "3.140000; -3.140000"
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Replacing ``%x`` and ``%o`` and converting the value to different bases::
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Format("int: {0:d}; hex: {0:x}; oct: {0:o}") << 42;
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// Result: "int: 42; hex: 2a; oct: 52"
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// with 0x or 0 as prefix:
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Format("int: {0:d}; hex: {0:#x}; oct: {0:#o}") << 42;
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// Result: "int: 42; hex: 0x2a; oct: 052"
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.. ifconfig:: False
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Using the comma as a thousands separator::
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Format("{:,}") << 1234567890)
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'1,234,567,890'
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Expressing a percentage::
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>>> points = 19
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>>> total = 22
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Format("Correct answers: {:.2%}") << points/total)
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'Correct answers: 86.36%'
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Using type-specific formatting::
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>>> import datetime
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>>> d = datetime.datetime(2010, 7, 4, 12, 15, 58)
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Format("{:%Y-%m-%d %H:%M:%S}") << d)
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'2010-07-04 12:15:58'
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Nesting arguments and more complex examples::
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>>> for align, text in zip('<^>', ['left', 'center', 'right']):
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... '{0:{fill}{align}16}") << text, fill=align, align=align)
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...
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'left<<<<<<<<<<<<'
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'^^^^^center^^^^^'
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'>>>>>>>>>>>right'
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>>>
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>>> octets = [192, 168, 0, 1]
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Format("{:02X}{:02X}{:02X}{:02X}") << *octets)
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'C0A80001'
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>>> int(_, 16)
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3232235521
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>>>
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>>> width = 5
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>>> for num in range(5,12):
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... for base in 'dXob':
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... print('{0:{width}{base}}") << num, base=base, width=width), end=' ')
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... print()
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...
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5 5 5 101
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6 6 6 110
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7 7 7 111
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8 8 10 1000
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9 9 11 1001
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10 A 12 1010
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11 B 13 1011
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