reprlib
— Alternate repr()
implementation¶
Source code: Lib/reprlib.py
The reprlib
module provides a means for producing object representations
with limits on the size of the resulting strings. This is used in the Python
debugger and may be useful in other contexts as well.
This module provides a class, an instance, and a function:
- class reprlib.Repr(*, maxlevel=6, maxtuple=6, maxlist=6, maxarray=5, maxdict=4, maxset=6, maxfrozenset=6, maxdeque=6, maxstring=30, maxlong=40, maxother=30, fillvalue='...', indent=None)¶
Class which provides formatting services useful in implementing functions similar to the built-in
repr()
; size limits for different object types are added to avoid the generation of representations which are excessively long.The keyword arguments of the constructor can be used as a shortcut to set the attributes of the
Repr
instance. Which means that the following initialization:aRepr = reprlib.Repr(maxlevel=3)
Is equivalent to:
aRepr = reprlib.Repr() aRepr.maxlevel = 3
See section Repr Objects for more information about
Repr
attributes.Changed in version 3.12: Allow attributes to be set via keyword arguments.
- reprlib.aRepr¶
This is an instance of
Repr
which is used to provide therepr()
function described below. Changing the attributes of this object will affect the size limits used byrepr()
and the Python debugger.
- reprlib.repr(obj)¶
This is the
repr()
method ofaRepr
. It returns a string similar to that returned by the built-in function of the same name, but with limits on most sizes.
In addition to size-limiting tools, the module also provides a decorator for
detecting recursive calls to __repr__()
and substituting a placeholder
string instead.
- @reprlib.recursive_repr(fillvalue='...')¶
Decorator for
__repr__()
methods to detect recursive calls within the same thread. If a recursive call is made, the fillvalue is returned, otherwise, the usual__repr__()
call is made. For example:>>> from reprlib import recursive_repr >>> class MyList(list): ... @recursive_repr() ... def __repr__(self): ... return '<' + '|'.join(map(repr, self)) + '>' ... >>> m = MyList('abc') >>> m.append(m) >>> m.append('x') >>> print(m) <'a'|'b'|'c'|...|'x'>
New in version 3.2.
Repr Objects¶
Repr
instances provide several attributes which can be used to provide
size limits for the representations of different object types, and methods
which format specific object types.
- Repr.fillvalue¶
This string is displayed for recursive references. It defaults to
...
.New in version 3.11.
- Repr.maxlevel¶
Depth limit on the creation of recursive representations. The default is
6
.
- Repr.maxdict¶
- Repr.maxlist¶
- Repr.maxtuple¶
- Repr.maxset¶
- Repr.maxfrozenset¶
- Repr.maxdeque¶
- Repr.maxarray¶
Limits on the number of entries represented for the named object type. The default is
4
formaxdict
,5
formaxarray
, and6
for the others.
- Repr.maxlong¶
Maximum number of characters in the representation for an integer. Digits are dropped from the middle. The default is
40
.
- Repr.maxstring¶
Limit on the number of characters in the representation of the string. Note that the “normal” representation of the string is used as the character source: if escape sequences are needed in the representation, these may be mangled when the representation is shortened. The default is
30
.
- Repr.maxother¶
This limit is used to control the size of object types for which no specific formatting method is available on the
Repr
object. It is applied in a similar manner asmaxstring
. The default is20
.
- Repr.indent¶
If this attribute is set to
None
(the default), the output is formatted with no line breaks or indentation, like the standardrepr()
. For example:>>> example = [ 1, 'spam', {'a': 2, 'b': 'spam eggs', 'c': {3: 4.5, 6: []}}, 'ham'] >>> import reprlib >>> aRepr = reprlib.Repr() >>> print(aRepr.repr(example)) [1, 'spam', {'a': 2, 'b': 'spam eggs', 'c': {3: 4.5, 6: []}}, 'ham']
If
indent
is set to a string, each recursion level is placed on its own line, indented by that string:>>> aRepr.indent = '-->' >>> print(aRepr.repr(example)) [ -->1, -->'spam', -->{ -->-->'a': 2, -->-->'b': 'spam eggs', -->-->'c': { -->-->-->3: 4.5, -->-->-->6: [], -->-->}, -->}, -->'ham', ]
Setting
indent
to a positive integer value behaves as if it was set to a string with that number of spaces:>>> aRepr.indent = 4 >>> print(aRepr.repr(example)) [ 1, 'spam', { 'a': 2, 'b': 'spam eggs', 'c': { 3: 4.5, 6: [], }, }, 'ham', ]
New in version 3.12.
- Repr.repr(obj)¶
The equivalent to the built-in
repr()
that uses the formatting imposed by the instance.
- Repr.repr1(obj, level)¶
Recursive implementation used by
repr()
. This uses the type of obj to determine which formatting method to call, passing it obj and level. The type-specific methods should callrepr1()
to perform recursive formatting, withlevel - 1
for the value of level in the recursive call.
- Repr.repr_TYPE(obj, level)
Formatting methods for specific types are implemented as methods with a name based on the type name. In the method name, TYPE is replaced by
'_'.join(type(obj).__name__.split())
. Dispatch to these methods is handled byrepr1()
. Type-specific methods which need to recursively format a value should callself.repr1(subobj, level - 1)
.
Subclassing Repr Objects¶
The use of dynamic dispatching by Repr.repr1()
allows subclasses of
Repr
to add support for additional built-in object types or to modify
the handling of types already supported. This example shows how special support
for file objects could be added:
import reprlib
import sys
class MyRepr(reprlib.Repr):
def repr_TextIOWrapper(self, obj, level):
if obj.name in {'<stdin>', '<stdout>', '<stderr>'}:
return obj.name
return repr(obj)
aRepr = MyRepr()
print(aRepr.repr(sys.stdin)) # prints '<stdin>'