822 lines
34 KiB
Plaintext
822 lines
34 KiB
Plaintext
PEP: 3101
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Title: Advanced String Formatting
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Version: $Revision$
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Last-Modified: $Date$
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Author: Talin <talin@acm.org>
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Status: Accepted
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Type: Standards Track
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Content-Type: text/plain
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Created: 16-Apr-2006
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Python-Version: 3.0
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Post-History: 28-Apr-2006, 6-May-2006, 10-Jun-2007, 14-Aug-2007
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Abstract
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This PEP proposes a new system for built-in string formatting
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operations, intended as a replacement for the existing '%' string
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formatting operator.
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Rationale
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Python currently provides two methods of string interpolation:
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- The '%' operator for strings. [1]
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- The string.Template module. [2]
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The primary scope of this PEP concerns proposals for built-in
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string formatting operations (in other words, methods of the
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built-in string type).
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The '%' operator is primarily limited by the fact that it is a
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binary operator, and therefore can take at most two arguments.
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One of those arguments is already dedicated to the format string,
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leaving all other variables to be squeezed into the remaining
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argument. The current practice is to use either a dictionary or a
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tuple as the second argument, but as many people have commented
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[3], this lacks flexibility. The "all or nothing" approach
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(meaning that one must choose between only positional arguments,
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or only named arguments) is felt to be overly constraining.
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While there is some overlap between this proposal and
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string.Template, it is felt that each serves a distinct need,
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and that one does not obviate the other. This proposal is for
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a mechanism which, like '%', is efficient for small strings
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which are only used once, so, for example, compilation of a
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string into a template is not contemplated in this proposal,
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although the proposal does take care to define format strings
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and the API in such a way that an efficient template package
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could reuse the syntax and even some of the underlying
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formatting code.
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Specification
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The specification will consist of the following parts:
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- Specification of a new formatting method to be added to the
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built-in string class.
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- Specification of functions and flag values to be added to
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the string module, so that the underlying formatting engine
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can be used with additional options.
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- Specification of a new syntax for format strings.
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- Specification of a new set of special methods to control the
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formatting and conversion of objects.
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- Specification of an API for user-defined formatting classes.
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- Specification of how formatting errors are handled.
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Note on string encodings: When discussing this PEP in the context
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of Python 3.0, it is assumed that all strings are unicode strings,
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and that the use of the word 'string' in the context of this
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document will generally refer to a Python 3.0 string, which is
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the same as Python 2.x unicode object.
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In the context of Python 2.x, the use of the word 'string' in this
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document refers to an object which may either be a regular string
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or a unicode object. All of the function call interfaces
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described in this PEP can be used for both strings and unicode
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objects, and in all cases there is sufficient information
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to be able to properly deduce the output string type (in
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other words, there is no need for two separate APIs).
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In all cases, the type of the format string dominates - that
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is, the result of the conversion will always result in an object
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that contains the same representation of characters as the
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input format string.
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String Methods
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The built-in string class (and also the unicode class in 2.6) will
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gain a new method, 'format', which takes an arbitrary number of
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positional and keyword arguments:
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"The story of {0}, {1}, and {c}".format(a, b, c=d)
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Within a format string, each positional argument is identified
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with a number, starting from zero, so in the above example, 'a' is
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argument 0 and 'b' is argument 1. Each keyword argument is
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identified by its keyword name, so in the above example, 'c' is
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used to refer to the third argument.
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There is also a global built-in function, 'format' which formats
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a single value:
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print(format(10.0, "7.3g"))
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This function is described in a later section.
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Format Strings
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Format strings consist of intermingled character data and markup.
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Character data is data which is transferred unchanged from the
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format string to the output string; markup is not transferred from
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the format string directly to the output, but instead is used to
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define 'replacement fields' that describe to the format engine
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what should be placed in the output string in place of the markup.
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Brace characters ('curly braces') are used to indicate a
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replacement field within the string:
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"My name is {0}".format('Fred')
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The result of this is the string:
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"My name is Fred"
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Braces can be escaped by doubling:
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"My name is {0} :-{{}}".format('Fred')
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Which would produce:
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"My name is Fred :-{}"
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The element within the braces is called a 'field'. Fields consist
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of a 'field name', which can either be simple or compound, and an
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optional 'format specifier'.
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Simple and Compound Field Names
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Simple field names are either names or numbers. If numbers, they
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must be valid base-10 integers; if names, they must be valid
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Python identifiers. A number is used to identify a positional
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argument, while a name is used to identify a keyword argument.
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A compound field name is a combination of multiple simple field
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names in an expression:
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"My name is {0.name}".format(open('out.txt', 'w'))
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This example shows the use of the 'getattr' or 'dot' operator
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in a field expression. The dot operator allows an attribute of
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an input value to be specified as the field value.
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Unlike some other programming languages, you cannot embed arbitrary
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expressions in format strings. This is by design - the types of
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expressions that you can use is deliberately limited. Only two operators
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are supported: the '.' (getattr) operator, and the '[]' (getitem)
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operator. The reason for allowing these operators is that they don't
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normally have side effects in non-pathological code.
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An example of the 'getitem' syntax:
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"My name is {0[name]}".format(dict(name='Fred'))
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It should be noted that the use of 'getitem' within a format string
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is much more limited than its conventional usage. In the above example,
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the string 'name' really is the literal string 'name', not a variable
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named 'name'. The rules for parsing an item key are very simple.
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If it starts with a digit, then it is treated as a number, otherwise
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it is used as a string.
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Because keys are not quote-delimited, it is not possible to
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specify arbitrary dictionary keys (e.g., the strings "10" or
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":-]") from within a format string.
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Implementation note: The implementation of this proposal is
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not required to enforce the rule about a simple or dotted name
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being a valid Python identifier. Instead, it will rely on the
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getattr function of the underlying object to throw an exception if
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the identifier is not legal. The str.format() function will have
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a minimalist parser which only attempts to figure out when it is
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"done" with an identifier (by finding a '.' or a ']', or '}',
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etc.).
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Format Specifiers
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Each field can also specify an optional set of 'format
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specifiers' which can be used to adjust the format of that field.
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Format specifiers follow the field name, with a colon (':')
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character separating the two:
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"My name is {0:8}".format('Fred')
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The meaning and syntax of the format specifiers depends on the
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type of object that is being formatted, but there is a standard
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set of format specifiers used for any object that does not
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override them.
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Format specifiers can themselves contain replacement fields.
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For example, a field whose field width is itself a parameter
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could be specified via:
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"{0:{1}}".format(a, b)
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These 'internal' replacement fields can only occur in the format
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specifier part of the replacement field. Internal replacement fields
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cannot themselves have format specifiers. This implies also that
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replacement fields cannot be nested to arbitrary levels.
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Note that the doubled '}' at the end, which would normally be
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escaped, is not escaped in this case. The reason is because
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the '{{' and '}}' syntax for escapes is only applied when used
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*outside* of a format field. Within a format field, the brace
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characters always have their normal meaning.
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The syntax for format specifiers is open-ended, since a class
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can override the standard format specifiers. In such cases,
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the str.format() method merely passes all of the characters between
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the first colon and the matching brace to the relevant underlying
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formatting method.
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Standard Format Specifiers
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If an object does not define its own format specifiers, a standard
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set of format specifiers is used. These are similar in concept to
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the format specifiers used by the existing '%' operator, however
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there are also a number of differences.
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The general form of a standard format specifier is:
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[[fill]align][sign][0][minimumwidth][.precision][type]
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The brackets ([]) indicate an optional element.
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Then the optional align flag can be one of the following:
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'<' - Forces the field to be left-aligned within the available
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space (This is the default.)
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'>' - Forces the field to be right-aligned within the
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available space.
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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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'^' - Forces the field to be centered within the available
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space.
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Note that unless a minimum field width is defined, the field
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width will always be the same size as the data to fill it, so
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that the alignment option has no meaning in this case.
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The optional 'fill' character defines the character to be used to
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pad the field to the minimum width. The fill character, if present,
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must be followed by an alignment flag.
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The 'sign' option is only valid for numeric types, and can be one
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of the following:
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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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'-' - indicates that a sign should be used only for negative
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numbers (this is the default behavior)
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' ' - indicates that a leading space should be used on
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positive numbers
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'width' is a decimal integer defining the minimum field width. If
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not specified, then the field width will be determined by the
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content.
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If the width field is preceded by a zero ('0') character, this enables
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zero-padding. This is equivalent to an alignment type of '=' and a
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fill character of '0'.
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The 'precision' is a decimal number indicating how many digits
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should be displayed after the decimal point in a floating point
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conversion. For non-numeric types the field indicates the maximum
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field size - in other words, how many characters will be used from
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the field content. The precision is ignored for integer conversions.
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Finally, the 'type' determines how the data should be presented.
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The available integer presentation types are:
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'b' - Binary. Outputs the number in base 2.
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'c' - Character. Converts the integer to the corresponding
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Unicode character before printing.
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'd' - Decimal Integer. Outputs the number in base 10.
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'o' - Octal format. Outputs the number in base 8.
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'x' - Hex format. Outputs the number in base 16, using lower-
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case letters for the digits above 9.
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'X' - Hex format. Outputs the number in base 16, using upper-
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case letters for the digits above 9.
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'n' - Number. This is the same as 'd', except that it uses the
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current locale setting to insert the appropriate
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number separator characters.
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'' (None) - the same as 'd'
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The available floating point presentation types are:
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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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'E' - Exponent notation. Same as 'e' except it uses an upper
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case 'E' as the separator character.
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'f' - Fixed point. Displays the number as a fixed-point
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number.
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'F' - Fixed point. Same as 'f'.
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'g' - General format. This prints the number as a fixed-point
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number, unless the number is too large, in which case
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it switches to 'e' exponent notation.
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'G' - General format. Same as 'g' except switches to 'E'
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if the number gets to large.
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'n' - Number. This is the same as 'g', except that it uses the
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current locale setting to insert the appropriate
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number separator characters.
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'%' - Percentage. Multiplies the number by 100 and displays
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in fixed ('f') format, followed by a percent sign.
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'' (None) - similar to 'g', except that it prints at least one
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digit after the decimal point.
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Objects are able to define their own format specifiers to
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replace the standard ones. An example is the 'datetime' class,
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whose format specifiers might look something like the
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arguments to the strftime() function:
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"Today is: {0:a b d H:M:S Y}".format(datetime.now())
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For all built-in types, an empty format specification will produce
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the equivalent of str(value). It is recommended that objects
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defining their own format specifiers follow this convention as
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well.
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Explicit Conversion Flag
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The explicit conversion flag is used to transform the format field value
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before it is formatted. This can be used to override the type-specific
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formatting behavior, and format the value as if it were a more
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generic type. Currently, two explicit conversion flags are
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recognized:
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!r - convert the value to a string using repr().
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!s - convert the value to a string using str().
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These flags are placed before the format specifier:
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"{0!r:20}".format("Hello")
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In the preceding example, the string "Hello" will be printed, with quotes,
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in a field of at least 20 characters width.
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A custom Formatter class can define additional conversion flags.
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The built-in formatter will raise a ValueError if an invalid
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conversion flag is specified.
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Controlling Formatting on a Per-Type Basis
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Each Python type can control formatting of its instances by defining
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a __format__ method. The __format__ method is responsible for
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interpreting the format specifier, formatting the value, and
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returning the resulting string.
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The new, global built-in function 'format' simply calls this special
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method, similar to how len() and str() simply call their respective
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special methods:
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def format(value, format_spec):
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return value.__format__(format_spec)
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It is safe to call this function with a value of "None" (because the
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"None" value in Python is an object and can have methods.)
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Several built-in types, including 'str', 'int', 'float', and 'object'
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define __format__ methods. This means that if you derive from any of
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those types, your class will know how to format itself.
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The object.__format__ method is the simplest: It simply converts the
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object to a string, and then calls format again:
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class object:
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def __format__(self, format_spec):
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return format(str(self), format_spec)
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The __format__ methods for 'int' and 'float' will do numeric formatting
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based on the format specifier. In some cases, these formatting
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operations may be delegated to other types. So for example, in the case
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where the 'int' formatter sees a format type of 'f' (meaning 'float')
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it can simply cast the value to a float and call format() again.
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Any class can override the __format__ method to provide custom
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formatting for that type:
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class AST:
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def __format__(self, format_spec):
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...
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Note for Python 2.x: The 'format_spec' argument will be either
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a string object or a unicode object, depending on the type of the
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original format string. The __format__ method should test the type
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of the specifiers parameter to determine whether to return a string or
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unicode object. It is the responsibility of the __format__ method
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to return an object of the proper type.
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Note that the 'explicit conversion' flag mentioned above is not passed
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to the __format__ method. Rather, it is expected that the conversion
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specified by the flag will be performed before calling __format__.
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User-Defined Formatting
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There will be times when customizing the formatting of fields
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on a per-type basis is not enough. An example might be a
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spreadsheet application, which displays hash marks '#' when a value
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is too large to fit in the available space.
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For more powerful and flexible formatting, access to the underlying
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format engine can be obtained through the 'Formatter' class that
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lives in the 'string' module. This class takes additional options
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which are not accessible via the normal str.format method.
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An application can subclass the Formatter class to create its own
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customized formatting behavior.
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The PEP does not attempt to exactly specify all methods and
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properties defined by the Formatter class; instead, those will be
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defined and documented in the initial implementation. However, this
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PEP will specify the general requirements for the Formatter class,
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which are listed below.
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Although string.format() does not directly use the Formatter class
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to do formatting, both use the same underlying implementation. The
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reason that string.format() does not use the Formatter class directly
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is because "string" is a built-in type, which means that all of its
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methods must be implemented in C, whereas Formatter is a Python
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class. Formatter provides an extensible wrapper around the same
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C functions as are used by string.format().
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Formatter Methods
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The Formatter class takes no initialization arguments:
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fmt = Formatter()
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The public API methods of class Formatter are as follows:
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-- format(format_string, *args, **kwargs)
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-- vformat(format_string, args, kwargs)
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'format' is the primary API method. It takes a format template,
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and an arbitrary set of positional and keyword arguments.
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'format' is just a wrapper that calls 'vformat'.
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'vformat' is the function that does the actual work of formatting. It
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is exposed as a separate function for cases where you want to pass in
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a predefined dictionary of arguments, rather than unpacking and
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repacking the dictionary as individual arguments using the '*args' and
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'**kwds' syntax. 'vformat' does the work of breaking up the format
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template string into character data and replacement fields. It calls
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the 'get_positional' and 'get_index' methods as appropriate (described
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below.)
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Formatter defines the following overridable methods:
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-- get_value(key, args, kwargs)
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-- check_unused_args(used_args, args, kwargs)
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-- format_field(value, format_spec)
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'get_value' is used to retrieve a given field value. The 'key' argument
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will be either an integer or a string. If it is an integer, it represents
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the index of the positional argument in 'args'; If it is a string, then
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it represents a named argument in 'kwargs'.
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The 'args' parameter is set to the list of positional arguments to
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'vformat', and the 'kwargs' parameter is set to the dictionary of
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positional arguments.
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For compound field names, these functions are only called for the
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first component of the field name; subsequent components are handled
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through normal attribute and indexing operations.
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So for example, the field expression '0.name' would cause 'get_value'
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to be called with a 'key' argument of 0. The 'name' attribute will be
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looked up after 'get_value' returns by calling the built-in 'getattr'
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function.
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If the index or keyword refers to an item that does not exist, then an
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IndexError/KeyError should be raised.
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'check_unused_args' is used to implement checking for unused arguments
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if desired. The arguments to this function is the set of all argument
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keys that were actually referred to in the format string (integers for
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positional arguments, and strings for named arguments), and a reference
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to the args and kwargs that was passed to vformat. The set of unused
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args can be calculated from these parameters. 'check_unused_args'
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is assumed to throw an exception if the check fails.
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'format_field' simply calls the global 'format' built-in. The method
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is provided so that subclasses can override it.
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|
||
To get a better understanding of how these functions relate to each
|
||
other, here is pseudocode that explains the general operation of
|
||
vformat.
|
||
|
||
def vformat(format_string, args, kwargs):
|
||
|
||
# Output buffer and set of used args
|
||
buffer = StringIO.StringIO()
|
||
used_args = set()
|
||
|
||
# Tokens are either format fields or literal strings
|
||
for token in self.parse(format_string):
|
||
if is_format_field(token):
|
||
# Split the token into field value and format spec
|
||
field_spec, _, format_spec = token.partition(":")
|
||
|
||
# Check for explicit type conversion
|
||
explicit, _, field_spec = field_spec.rpartition("!")
|
||
|
||
# 'first_part' is the part before the first '.' or '['
|
||
# Assume that 'get_first_part' returns either an int or
|
||
# a string, depending on the syntax.
|
||
first_part = get_first_part(field_spec)
|
||
value = self.get_value(first_part, args, kwargs)
|
||
|
||
# Record the fact that we used this arg
|
||
used_args.add(first_part)
|
||
|
||
# Handle [subfield] or .subfield. Assume that 'components'
|
||
# returns an iterator of the various subfields, not including
|
||
# the first part.
|
||
for comp in components(field_spec):
|
||
value = resolve_subfield(value, comp)
|
||
|
||
# Handle explicit type conversion
|
||
if explicit == 'r':
|
||
value = repr(value)
|
||
elif explicit == 's':
|
||
value = str(value)
|
||
|
||
# Call the global 'format' function and write out the converted
|
||
# value.
|
||
buffer.write(self.format_field(value, format_spec))
|
||
|
||
else:
|
||
buffer.write(token)
|
||
|
||
self.check_unused_args(used_args, args, kwargs)
|
||
return buffer.getvalue()
|
||
|
||
Note that the actual algorithm of the Formatter class (which will be
|
||
implemented in C) may not be the one presented here. (It's likely
|
||
that the actual implementation won't be a 'class' at all - rather,
|
||
vformat may just call a C function which accepts the other overridable
|
||
methods as arguments.) The primary purpose of this code example is to
|
||
illustrate the order in which overridable methods are called.
|
||
|
||
|
||
Customizing Formatters
|
||
|
||
This section describes some typical ways that Formatter objects
|
||
can be customized.
|
||
|
||
To support alternative format-string syntax, the 'vformat' method
|
||
can be overridden to alter the way format strings are parsed.
|
||
|
||
One common desire is to support a 'default' namespace, so that
|
||
you don't need to pass in keyword arguments to the format()
|
||
method, but can instead use values in a pre-existing namespace.
|
||
This can easily be done by overriding get_value() as follows:
|
||
|
||
class NamespaceFormatter(Formatter):
|
||
def __init__(self, namespace={}):
|
||
Formatter.__init__(self)
|
||
self.namespace = namespace
|
||
|
||
def get_value(self, key, args, kwds):
|
||
if isinstance(key, str):
|
||
try:
|
||
# Check explicitly passed arguments first
|
||
return kwds[name]
|
||
except KeyError:
|
||
return self.namespace[name]
|
||
else:
|
||
Formatter.get_value(key, args, kwds)
|
||
|
||
One can use this to easily create a formatting function that allows
|
||
access to global variables, for example:
|
||
|
||
fmt = NamespaceFormatter(globals())
|
||
|
||
greeting = "hello"
|
||
print(fmt("{greeting}, world!"))
|
||
|
||
A similar technique can be done with the locals() dictionary to
|
||
gain access to the locals dictionary.
|
||
|
||
It would also be possible to create a 'smart' namespace formatter
|
||
that could automatically access both locals and globals through
|
||
snooping of the calling stack. Due to the need for compatibility
|
||
with the different versions of Python, such a capability will not
|
||
be included in the standard library, however it is anticipated
|
||
that someone will create and publish a recipe for doing this.
|
||
|
||
Another type of customization is to change the way that built-in
|
||
types are formatted by overriding the 'format_field' method. (For
|
||
non-built-in types, you can simply define a __format__ special
|
||
method on that type.) So for example, you could override the
|
||
formatting of numbers to output scientific notation when needed.
|
||
|
||
|
||
Error handling
|
||
|
||
There are two classes of exceptions which can occur during formatting:
|
||
exceptions generated by the formatter code itself, and exceptions
|
||
generated by user code (such as a field object's 'getattr' function).
|
||
|
||
In general, exceptions generated by the formatter code itself are
|
||
of the "ValueError" variety -- there is an error in the actual "value"
|
||
of the format string. (This is not always true; for example, the
|
||
string.format() function might be passed a non-string as its first
|
||
parameter, which would result in a TypeError.)
|
||
|
||
The text associated with these internally generated ValueError
|
||
exceptions will indicate the location of the exception inside
|
||
the format string, as well as the nature of the exception.
|
||
|
||
For exceptions generated by user code, a trace record and
|
||
dummy frame will be added to the traceback stack to help
|
||
in determining the location in the string where the exception
|
||
occurred. The inserted traceback will indicate that the
|
||
error occurred at:
|
||
|
||
File "<format_string>;", line XX, in column_YY
|
||
|
||
where XX and YY represent the line and character position
|
||
information in the string, respectively.
|
||
|
||
|
||
Alternate Syntax
|
||
|
||
Naturally, one of the most contentious issues is the syntax of the
|
||
format strings, and in particular the markup conventions used to
|
||
indicate fields.
|
||
|
||
Rather than attempting to exhaustively list all of the various
|
||
proposals, I will cover the ones that are most widely used
|
||
already.
|
||
|
||
- Shell variable syntax: $name and $(name) (or in some variants,
|
||
${name}). This is probably the oldest convention out there, and
|
||
is used by Perl and many others. When used without the braces,
|
||
the length of the variable is determined by lexically scanning
|
||
until an invalid character is found.
|
||
|
||
This scheme is generally used in cases where interpolation is
|
||
implicit - that is, in environments where any string can contain
|
||
interpolation variables, and no special substitution function
|
||
need be invoked. In such cases, it is important to prevent the
|
||
interpolation behavior from occurring accidentally, so the '$'
|
||
(which is otherwise a relatively uncommonly-used character) is
|
||
used to signal when the behavior should occur.
|
||
|
||
It is the author's opinion, however, that in cases where the
|
||
formatting is explicitly invoked, that less care needs to be
|
||
taken to prevent accidental interpolation, in which case a
|
||
lighter and less unwieldy syntax can be used.
|
||
|
||
- printf and its cousins ('%'), including variations that add a
|
||
field index, so that fields can be interpolated out of order.
|
||
|
||
- Other bracket-only variations. Various MUDs (Multi-User
|
||
Dungeons) such as MUSH have used brackets (e.g. [name]) to do
|
||
string interpolation. The Microsoft .Net libraries uses braces
|
||
({}), and a syntax which is very similar to the one in this
|
||
proposal, although the syntax for format specifiers is quite
|
||
different. [4]
|
||
|
||
- Backquoting. This method has the benefit of minimal syntactical
|
||
clutter, however it lacks many of the benefits of a function
|
||
call syntax (such as complex expression arguments, custom
|
||
formatters, etc.).
|
||
|
||
- Other variations include Ruby's #{}, PHP's {$name}, and so
|
||
on.
|
||
|
||
Some specific aspects of the syntax warrant additional comments:
|
||
|
||
1) Backslash character for escapes. The original version of
|
||
this PEP used backslash rather than doubling to escape a bracket.
|
||
This worked because backslashes in Python string literals that
|
||
don't conform to a standard backslash sequence such as '\n'
|
||
are left unmodified. However, this caused a certain amount
|
||
of confusion, and led to potential situations of multiple
|
||
recursive escapes, i.e. '\\\\{' to place a literal backslash
|
||
in front of a bracket.
|
||
|
||
2) The use of the colon character (':') as a separator for
|
||
format specifiers. This was chosen simply because that's
|
||
what .Net uses.
|
||
|
||
|
||
Alternate Feature Proposals
|
||
|
||
Restricting attribute access: An earlier version of the PEP
|
||
restricted the ability to access attributes beginning with a
|
||
leading underscore, for example "{0}._private". However, this
|
||
is a useful ability to have when debugging, so the feature
|
||
was dropped.
|
||
|
||
Some developers suggested that the ability to do 'getattr' and
|
||
'getitem' access should be dropped entirely. However, this
|
||
is in conflict with the needs of another set of developers who
|
||
strongly lobbied for the ability to pass in a large dict as a
|
||
single argument (without flattening it into individual keyword
|
||
arguments using the **kwargs syntax) and then have the format
|
||
string refer to dict entries individually.
|
||
|
||
There has also been suggestions to expand the set of expressions
|
||
that are allowed in a format string. However, this was seen
|
||
to go against the spirit of TOOWTDI, since the same effect can
|
||
be achieved in most cases by executing the same expression on
|
||
the parameter before it's passed in to the formatting function.
|
||
For cases where the format string is being use to do arbitrary
|
||
formatting in a data-rich environment, it's recommended to use
|
||
a template engine specialized for this purpose, such as
|
||
Genshi [5] or Cheetah [6].
|
||
|
||
Many other features were considered and rejected because they
|
||
could easily be achieved by subclassing Formatter instead of
|
||
building the feature into the base implementation. This includes
|
||
alternate syntax, comments in format strings, and many others.
|
||
|
||
|
||
Security Considerations
|
||
|
||
Historically, string formatting has been a common source of
|
||
security holes in web-based applications, particularly if the
|
||
string formatting system allows arbitrary expressions to be
|
||
embedded in format strings.
|
||
|
||
The best way to use string formatting in a way that does not
|
||
create potential security holes is to never use format strings
|
||
that come from an untrusted source.
|
||
|
||
Barring that, the next best approach is to ensure that string
|
||
formatting has no side effects. Because of the open nature of
|
||
Python, it is impossible to guarantee that any non-trivial
|
||
operation has this property. What this PEP does is limit the
|
||
types of expressions in format strings to those in which visible
|
||
side effects are both rare and strongly discouraged by the
|
||
culture of Python developers. So for example, attribute access
|
||
is allowed because it would be considered pathological to write
|
||
code where the mere access of an attribute has visible side
|
||
effects (whether the code has *invisible* side effects - such
|
||
as creating a cache entry for faster lookup - is irrelevant.)
|
||
|
||
|
||
Sample Implementation
|
||
|
||
An implementation of an earlier version of this PEP was created by
|
||
Patrick Maupin and Eric V. Smith, and can be found in the pep3101
|
||
sandbox at:
|
||
|
||
http://svn.python.org/view/sandbox/trunk/pep3101/
|
||
|
||
|
||
Backwards Compatibility
|
||
|
||
Backwards compatibility can be maintained by leaving the existing
|
||
mechanisms in place. The new system does not collide with any of
|
||
the method names of the existing string formatting techniques, so
|
||
both systems can co-exist until it comes time to deprecate the
|
||
older system.
|
||
|
||
|
||
References
|
||
|
||
[1] Python Library Reference - String formating operations
|
||
http://docs.python.org/lib/typesseq-strings.html
|
||
|
||
[2] Python Library References - Template strings
|
||
http://docs.python.org/lib/node109.html
|
||
|
||
[3] [Python-3000] String formating operations in python 3k
|
||
http://mail.python.org/pipermail/python-3000/2006-April/000285.html
|
||
|
||
[4] Composite Formatting - [.Net Framework Developer's Guide]
|
||
http://msdn.microsoft.com/library/en-us/cpguide/html/cpconcompositeformatting.asp?frame=true
|
||
|
||
[5] Genshi templating engine.
|
||
http://genshi.edgewall.org/
|
||
|
||
[5] Cheetah - The Python-Powered Template Engine.
|
||
http://www.cheetahtemplate.org/
|
||
|
||
|
||
Copyright
|
||
|
||
This document has been placed in the public domain.
|
||
|
||
|
||
Local Variables:
|
||
mode: indented-text
|
||
indent-tabs-mode: nil
|
||
sentence-end-double-space: t
|
||
fill-column: 70
|
||
coding: utf-8
|
||
End:
|