1507

So what I'm looking for here is something like PHP's print_r function.

This is so I can debug my scripts by seeing what's the state of the object in question.

1
  • 2
    You are asking for attributes, aren't you? The question is misleading, because property has a specific meaning in Python which differs from the meaning of attribute. If I am right, maybe you want to rephrase your question? Commented Jan 21, 2021 at 9:41

32 Answers 32

1385

You want vars() mixed with pprint():

from pprint import pprint
pprint(vars(your_object))
7
  • 48
    vars() simply returns the __dict__ of its argument and that is also the fallback of dir() in case there is no __dir__ method. so use dir() in the first place, as i said.
    – user3850
    Commented Dec 18, 2011 at 20:16
  • 41
    @hop: dir() gives you all the built in things you probably don't care about like __str__ and __new__. var() doesn't.
    – Timmmm
    Commented Jul 31, 2012 at 17:23
  • 36
    This fails on sets and other objects that doesn't have __dict__ attribute. Commented Aug 24, 2015 at 8:24
  • 2
    this is absolutely good anwers, adding more: from inspect import getmembers
    – joe-khoa
    Commented Oct 8, 2020 at 6:46
  • 13
    @hop, vars() gives the values of the fields, while dir() leaves them a mystery.
    – cowlinator
    Commented Mar 3, 2021 at 22:16
810

You are really mixing together two different things.

Use dir(), vars() or the inspect module to get what you are interested in (I use __builtins__ as an example; you can use any object instead).

>>> l = dir(__builtins__)
>>> d = __builtins__.__dict__

Print that dictionary however fancy you like:

>>> print l
['ArithmeticError', 'AssertionError', 'AttributeError',...

or

>>> from pprint import pprint
>>> pprint(l)
['ArithmeticError',
 'AssertionError',
 'AttributeError',
 'BaseException',
 'DeprecationWarning',
...

>>> pprint(d, indent=2)
{ 'ArithmeticError': <type 'exceptions.ArithmeticError'>,
  'AssertionError': <type 'exceptions.AssertionError'>,
  'AttributeError': <type 'exceptions.AttributeError'>,
...
  '_': [ 'ArithmeticError',
         'AssertionError',
         'AttributeError',
         'BaseException',
         'DeprecationWarning',
...

Pretty printing is also available in the interactive debugger as a command:

(Pdb) pp vars()
{'__builtins__': {'ArithmeticError': <type 'exceptions.ArithmeticError'>,
                  'AssertionError': <type 'exceptions.AssertionError'>,
                  'AttributeError': <type 'exceptions.AttributeError'>,
                  'BaseException': <type 'exceptions.BaseException'>,
                  'BufferError': <type 'exceptions.BufferError'>,
                  ...
                  'zip': <built-in function zip>},
 '__file__': 'pass.py',
 '__name__': '__main__'}
9
  • 37
    Surprisingly, it seems not all objects have a __dict__ member (an re.MatchObject for instance), but builtin dir() works for all objects.
    – hobs
    Commented Mar 18, 2012 at 3:47
  • 1
    print re.compile(r'slots').search('No slots here either.').__slots__
    – hobs
    Commented Mar 19, 2012 at 1:40
  • @hobs: you are aware that "confer!" means "see also", "compare"? I know that match objects have no slots. that's not the point i tried to make.
    – user3850
    Commented Mar 19, 2012 at 13:52
  • 7
    why don't you talk more about inspect module in your answer? I think it is the closest thing to print_r or var_dump. Commented May 22, 2012 at 10:56
  • 2
    How do you access the values behind the attributes listed by dir(), then? dir() only returns a list of names, and not all of those exist in vars() or in the __dict__ attribute. Commented Aug 9, 2019 at 7:44
312
def dump(obj):
  for attr in dir(obj):
    print("obj.%s = %r" % (attr, getattr(obj, attr)))

There are many 3rd-party functions out there that add things like exception handling, national/special character printing, recursing into nested objects etc. according to their authors' preferences. But they all basically boil down to this.

7
  • 6
    unpythonic, because follows not-invented-here
    – user3850
    Commented Oct 10, 2008 at 17:31
  • 20
    Say what? Sure, you can use the getmembers() function in the standard inspect module, but I thought this would be more useful in that it illustrates how to do introspection in general.
    – Dan Lenski
    Commented Oct 10, 2008 at 17:44
  • 28
    NOT AT ALL. dir(obj) shows properties that aren't found in __dict__ (such as __doc__ and __module__). Furthermore, __dict__ doesn't work at all for objects declared with __slots__. In general, __dict__ shows user-level properties that are actually stored in a dictionary internally. dir() shows more.
    – Dan Lenski
    Commented Oct 10, 2008 at 19:08
  • 9
    Some classes/objects don't contain any __dict__ attribute/member. I know it's crazy, but true. Built-ins like int and str or re.MatchObjects are common examples. Try 'hello'.__dict__, then try dir('hello')
    – hobs
    Commented Mar 18, 2012 at 4:50
  • 3
    Well, this answer at least prints both attributes' names and values, in case an object doesn't have a dict (like the return from, say, QtGui.QMdiSubWindow.sizePolicy()), which is what I like about it.
    – sdaau
    Commented Nov 11, 2013 at 0:27
116

dir has been mentioned, but that'll only give you the attributes' names. If you want their values as well, try __dict__.

class O:
   def __init__ (self):
      self.value = 3

o = O()

Here is the output:

>>> o.__dict__

{'value': 3}
1
  • 12
    Objects like set doesn't have __dict__, so for them it will fail with AttributeError: 'set' object has no attribute '__dict__' Commented Aug 24, 2015 at 8:27
89

Is there a built-in function to print all the current properties and values of an object?

No. The most upvoted answer excludes some kinds of attributes, and the accepted answer shows how to get all attributes, including methods and parts of the non-public api. But there is no good complete builtin function for this.

So the short corollary is that you can write your own, but it will calculate properties and other calculated data-descriptors that are part of the public API, and you might not want that:

from pprint import pprint
from inspect import getmembers
from types import FunctionType

def attributes(obj):
    disallowed_names = {
      name for name, value in getmembers(type(obj)) 
        if isinstance(value, FunctionType)}
    return {
      name: getattr(obj, name) for name in dir(obj) 
        if name[0] != '_' and name not in disallowed_names and hasattr(obj, name)}

def print_attributes(obj):
    pprint(attributes(obj))

Problems with other answers

Observe the application of the currently top voted answer on a class with a lot of different kinds of data members:

from pprint import pprint

class Obj:
    __slots__ = 'foo', 'bar', '__dict__'
    def __init__(self, baz):
        self.foo = ''
        self.bar = 0
        self.baz = baz
    @property
    def quux(self):
        return self.foo * self.bar

obj = Obj('baz')
pprint(vars(obj))

only prints:

{'baz': 'baz'}

Because vars only returns the __dict__ of an object, and it's not a copy, so if you modify the dict returned by vars, you're also modifying the __dict__ of the object itself.

vars(obj)['quux'] = 'WHAT?!'
vars(obj)

returns:

{'baz': 'baz', 'quux': 'WHAT?!'}

-- which is bad because quux is a property that we shouldn't be setting and shouldn't be in the namespace...

Applying the advice in the currently accepted answer (and others) is not much better:

>>> dir(obj)
['__class__', '__delattr__', '__dict__', '__dir__', '__doc__', '__eq__', '__format__', '__ge__', '__getattribute__', '__gt__', '__hash__', '__init__', '__init_subclass__', '__le__', '__lt__', '__module__', '__ne__', '__new__', '__reduce__', '__reduce_ex__', '__repr__', '__setattr__', '__sizeof__', '__slots__', '__str__', '__subclasshook__', 'bar', 'baz', 'foo', 'quux']

As we can see, dir only returns all (actually just most) of the names associated with an object.

inspect.getmembers, mentioned in the comments, is similarly flawed - it returns all names and values.

From class

When teaching I have my students create a function that provides the semantically public API of an object:

def api(obj):
    return [name for name in dir(obj) if name[0] != '_']

We can extend this to provide a copy of the semantic namespace of an object, but we need to exclude __slots__ that aren't assigned, and if we're taking the request for "current properties" seriously, we need to exclude calculated properties (as they could become expensive, and could be interpreted as not "current"):

from types import FunctionType
from inspect import getmembers

def attrs(obj):
    disallowed_properties = {
        name for name, value in getmembers(type(obj)) 
        if isinstance(value, (property, FunctionType))
    }
    return {
        name: getattr(obj, name) for name in api(obj) 
        if name not in disallowed_properties and hasattr(obj, name)
    }

And now we do not calculate or show the property, quux:

>>> attrs(obj)
{'bar': 0, 'baz': 'baz', 'foo': ''}

Caveats

But perhaps we do know our properties aren't expensive. We may want to alter the logic to include them as well. And perhaps we want to exclude other custom data descriptors instead.

Then we need to further customize this function. And so it makes sense that we cannot have a built-in function that magically knows exactly what we want and provides it. This is functionality we need to create ourselves.

Conclusion

There is no built-in function that does this, and you should do what is most semantically appropriate for your situation.

3
37

You can use the "dir()" function to do this.

>>> import sys
>>> dir(sys)
['__displayhook__', '__doc__', '__excepthook__', '__name__', '__stderr__', '__stdin__', '__stdo
t__', '_current_frames', '_getframe', 'api_version', 'argv', 'builtin_module_names', 'byteorder
, 'call_tracing', 'callstats', 'copyright', 'displayhook', 'dllhandle', 'exc_clear', 'exc_info'
 'exc_type', 'excepthook', 'exec_prefix', 'executable', 'exit', 'getcheckinterval', 'getdefault
ncoding', 'getfilesystemencoding', 'getrecursionlimit', 'getrefcount', 'getwindowsversion', 'he
version', 'maxint', 'maxunicode', 'meta_path', 'modules', 'path', 'path_hooks', 'path_importer_
ache', 'platform', 'prefix', 'ps1', 'ps2', 'setcheckinterval', 'setprofile', 'setrecursionlimit
, 'settrace', 'stderr', 'stdin', 'stdout', 'subversion', 'version', 'version_info', 'warnoption
', 'winver']
>>>

Another useful feature is help.

>>> help(sys)
Help on built-in module sys:

NAME
    sys

FILE
    (built-in)

MODULE DOCS
    http://www.python.org/doc/current/lib/module-sys.html

DESCRIPTION
    This module provides access to some objects used or maintained by the
    interpreter and to functions that interact strongly with the interpreter.

    Dynamic objects:

    argv -- command line arguments; argv[0] is the script pathname if known
0
27

To print the current state of the object you might:

>>> obj # in an interpreter

or

print repr(obj) # in a script

or

print obj

For your classes define __str__ or __repr__ methods. From the Python documentation:

__repr__(self) Called by the repr() built-in function and by string conversions (reverse quotes) to compute the "official" string representation of an object. If at all possible, this should look like a valid Python expression that could be used to recreate an object with the same value (given an appropriate environment). If this is not possible, a string of the form "<...some useful description...>" should be returned. The return value must be a string object. If a class defines repr() but not __str__(), then __repr__() is also used when an "informal" string representation of instances of that class is required. This is typically used for debugging, so it is important that the representation is information-rich and unambiguous.

__str__(self) Called by the str() built-in function and by the print statement to compute the "informal" string representation of an object. This differs from __repr__() in that it does not have to be a valid Python expression: a more convenient or concise representation may be used instead. The return value must be a string object.

1
  • This option is useful for printing strings concatenated with the content of the object: print "DEBUG: object value: " + repr(obj) Commented Nov 10, 2015 at 15:27
21

I recommend using help(your_object).

help(dir)

 If called without an argument, return the names in the current scope.
 Else, return an alphabetized list of names comprising (some of) the attributes
 of the given object, and of attributes reachable from it.
 If the object supplies a method named __dir__, it will be used; otherwise
 the default dir() logic is used and returns:
 for a module object: the module's attributes.
 for a class object:  its attributes, and recursively the attributes
 of its bases.
 for any other object: its attributes, its class's attributes, and
 recursively the attributes of its class's base classes.

help(vars)

Without arguments, equivalent to locals().
With an argument, equivalent to object.__dict__.
0
20

Might be worth checking out --

Is there a Python equivalent to Perl's Data::Dumper?

My recommendation is this --

https://gist.github.com/1071857

Note that perl has a module called Data::Dumper which translates object data back to perl source code (NB: it does NOT translate code back to source, and almost always you don't want to the object method functions in the output). This can be used for persistence, but the common purpose is for debugging.

There are a number of things standard python pprint fails to achieve, in particular it just stops descending when it sees an instance of an object and gives you the internal hex pointer of the object (errr, that pointer is not a whole lot of use by the way). So in a nutshell, python is all about this great object oriented paradigm, but the tools you get out of the box are designed for working with something other than objects.

The perl Data::Dumper allows you to control how deep you want to go, and also detects circular linked structures (that's really important). This process is fundamentally easier to achieve in perl because objects have no particular magic beyond their blessing (a universally well defined process).

3
  • 2
    > So in a nutshell, python is all about this great object oriented paradigm, but the tools you get out of the box are designed for working with something other than objects... Quite a claim when the only example you're providing is a module of secondary importance.
    – memeplex
    Commented May 31, 2016 at 0:21
  • @memeplex where does it say python is all about OOP? Commented Oct 8, 2018 at 9:48
  • this is only for 2.7
    – Rainb
    Commented Jun 20, 2020 at 11:51
15

In most cases, using __dict__ or dir() will get you the info you're wanting. If you should happen to need more details, the standard library includes the inspect module, which allows you to get some impressive amount of detail. Some of the real nuggests of info include:

  • names of function and method parameters
  • class hierarchies
  • source code of the implementation of a functions/class objects
  • local variables out of a frame object

If you're just looking for "what attribute values does my object have?", then dir() and __dict__ are probably sufficient. If you're really looking to dig into the current state of arbitrary objects (keeping in mind that in python almost everything is an object), then inspect is worthy of consideration.

0
14

If you're using this for debugging, and you just want a recursive dump of everything, the accepted answer is unsatisfying because it requires that your classes have good __str__ implementations already. If that's not the case, this works much better:

import json
print(json.dumps(YOUR_OBJECT, 
                 default=lambda obj: vars(obj),
                 indent=1))
2
  • this didn't work on python 3. Had to install pymongo and do it as per @Clark 's answer
    – Tim Ogilvy
    Commented Apr 16, 2015 at 8:04
  • 2
    as with many of the other answers here TypeError: vars() argument must have __dict__ attribute
    – rob
    Commented Oct 1, 2019 at 10:09
11

Try ppretty

from ppretty import ppretty


class A(object):
    s = 5

    def __init__(self):
        self._p = 8

    @property
    def foo(self):
        return range(10)


print ppretty(A(), show_protected=True, show_static=True, show_properties=True)

Output:

__main__.A(_p = 8, foo = [0, 1, ..., 8, 9], s = 5)
1
  • little hint add depth=6 (or however far you need) as one of the parameters for it and the recursion details can go further :). One of the things I like about how it prints lists is it shows the first 2 entires and last 2 entries so you know it's working Commented Feb 17, 2020 at 6:36
9

A metaprogramming example Dump object with magic:

$ cat dump.py
#!/usr/bin/python
import sys
if len(sys.argv) > 2:
    module, metaklass  = sys.argv[1:3]
    m = __import__(module, globals(), locals(), [metaklass])
    __metaclass__ = getattr(m, metaklass)

class Data:
    def __init__(self):
        self.num = 38
        self.lst = ['a','b','c']
        self.str = 'spam'
    dumps   = lambda self: repr(self)
    __str__ = lambda self: self.dumps()

data = Data()
print data

Without arguments:

$ python dump.py
<__main__.Data instance at 0x00A052D8>

With Gnosis Utils:

$ python dump.py gnosis.magic MetaXMLPickler
<?xml version="1.0"?>
<!DOCTYPE PyObject SYSTEM "PyObjects.dtd">
<PyObject module="__main__" class="Data" id="11038416">
<attr name="lst" type="list" id="11196136" >
  <item type="string" value="a" />
  <item type="string" value="b" />
  <item type="string" value="c" />
</attr>
<attr name="num" type="numeric" value="38" />
<attr name="str" type="string" value="spam" />
</PyObject>

It is a bit outdated but still working.

9

This prints out all the object contents recursively in json or yaml indented format:

import jsonpickle # pip install jsonpickle
import json
import yaml # pip install pyyaml

serialized = jsonpickle.encode(obj, max_depth=2) # max_depth is optional
print json.dumps(json.loads(serialized), indent=4)
print yaml.dump(yaml.load(serialized), indent=4)
1
  • If you just want to serialize to a string, you don't even need jsonpickle: import yaml print(yaml.dump(your_object)) Commented Jan 26 at 16:40
7
from pprint import pprint

def print_r(the_object):
    print ("CLASS: ", the_object.__class__.__name__, " (BASE CLASS: ", the_object.__class__.__bases__,")")
    pprint(vars(the_object))
0
5

Why not something simple:

for key,value in obj.__dict__.iteritems():
    print key,value
2
  • Shouldn't that be for key,value in obj.__dict__.iteritems(): print key,value?
    – Raz
    Commented Oct 30, 2014 at 8:09
  • Nice, suited. But fixed compile errors (maybe, other Python version) for key, value in params.__dict__.items(): print(key + " = " + str(value))
    – Oleg
    Commented Jun 10, 2022 at 22:45
5

This works no matter how your varibles are defined within a class, inside __init__ or outside.

your_obj = YourObj()
attrs_with_value = {attr: getattr(your_obj, attr) for attr in dir(your_obj)}
2
  • 1
    Addition to exclude all built-in vars (methods, functions etc) : {attr: getattr(your_obj, attr) for attr in dir(your_obj) and "__" not in attr}
    – Vladimir
    Commented Nov 5, 2021 at 17:41
  • @Vladimir I get a syntax error with your version ""attr" is not defined"
    – abulka
    Commented Apr 3, 2023 at 8:19
5

If you want to see all the values in a complex data structure, then do something like:

from pprint import pprint
pprint(my_var)

Where my_var is your variable of interest. When I used pprint(vars(my_var)) I got nothing, and other answers here didn't help or the method looked unnecessarily long. By the way, in my particular case, the code I was inspecting had a dictionary of dictionaries.

Worth pointing out that with some custom classes you may just end up with an unhelpful <someobject.ExampleClass object at 0x7f739267f400> kind of output. In that case, you might have to implement a __str__ method, or try some of the other solutions.

I also found that in one instance where I got this object type of output, vars() showed me what I wanted. So a better solution to cover both cases would be to try both individually. But using vars() can sometimes throw an exception, for example, TypeError: vars() argument must have __dict__ attribute.

I'd still like to find something simple that works in all scenarios, without third party libraries.

0
4

I was needing to print DEBUG info in some logs and was unable to use pprint because it would break it. Instead I did this and got virtually the same thing.

DO = DemoObject()

itemDir = DO.__dict__

for i in itemDir:
    print '{0}  :  {1}'.format(i, itemDir[i])
4

To dump "myObject":

from bson import json_util
import json

print(json.dumps(myObject, default=json_util.default, sort_keys=True, indent=4, separators=(',', ': ')))

I tried vars() and dir(); both failed for what I was looking for. vars() didn't work because the object didn't have __dict__ (exceptions.TypeError: vars() argument must have __dict__ attribute). dir() wasn't what I was looking for: it's just a listing of field names, doesn't give the values or the object structure.

I think json.dumps() would work for most objects without the default=json_util.default, but I had a datetime field in the object so the standard json serializer failed. See How to overcome "datetime.datetime not JSON serializable" in python?

1
  • 1
    Okay yep had to install pymongo tho to use it.
    – Tim Ogilvy
    Commented Apr 16, 2015 at 8:09
3

For everybody struggling with

  • vars() not returning all attributes.
  • dir() not returning the attributes' values.

The following code prints all attributes of obj with their values:

for attr in dir(obj):
        try:
            print("obj.{} = {}".format(attr, getattr(obj, attr)))
        except AttributeError:
            print("obj.{} = ?".format(attr))
1
  • 1
    get no errors, but not recursive so just get a lot of hex addresses
    – rob
    Commented Oct 1, 2019 at 10:13
3

Just try beeprint.

It will help you not only with printing object variables, but beautiful output as well, like this:

class(NormalClassNewStyle):
  dicts: {
  },
  lists: [],
  static_props: 1,
  tupl: (1, 2)
2
  • 1
    This module does not seemed to be maintained any more and have a number of open issues. Rather use ppretty
    – Wavesailor
    Commented Feb 14, 2019 at 0:06
  • beeprint is too verbose, can't figure out how to exclude e.g. properties starting with _ etc. Not documented very well - or maintained.
    – abulka
    Commented Apr 3, 2023 at 8:23
3

While there are many good answers, here is a 1-liner that can give the attributes AS WELL AS values:

(str(vars(config)).split(",")[1:])

where 'config' is the object in question. I am listing this as a separate answer because I just wanted to simply print the relevant values of the object (excl the __main etc) without using loops or pretty print and didn't find a convenient answer.

0
2

pprint contains a “pretty printer” for producing aesthetically pleasing representations of your data structures. The formatter produces representations of data structures that can be parsed correctly by the interpreter, and are also easy for a human to read. The output is kept on a single line, if possible, and indented when split across multiple lines.

1

This project modifies pprint to show all object field values, it ignores he objects __repr__ member function, it also recurses into nested objects. It works with python3, see https://github.com/MoserMichael/pprintex You can install it via pip: pip install printex

1

vars() seems to show the attributes of this object, but dir() seems to show attributes of parent class(es) as well. You don't usually need to see inherited attributes such as str, doc. dict etc.

In [1]: class Aaa():
...:     def __init__(self, name, age):
...:         self.name = name
...:         self.age = age
...:
In [2]: class Bbb(Aaa):
...:     def __init__(self, name, age, job):
...:         super().__init__(name, age)
...:         self.job = job
...:
In [3]: a = Aaa('Pullayya',42)

In [4]: b = Bbb('Yellayya',41,'Cop')

In [5]: vars(a)
Out[5]: {'name': 'Pullayya', 'age': 42}

In [6]: vars(b)
Out[6]: {'name': 'Yellayya', 'age': 41, 'job': 'Cop'}

In [7]: dir(a)
Out[7]:
['__class__',
 '__delattr__',
 '__dict__',
 '__dir__',
 '__doc__',
 '__eq__',
 ...
 ...
 '__subclasshook__',
 '__weakref__',
 'age',
 'name']
1

@dataclass + pprint (recursive, indented, no external libs, Python 3.10)

@dataclass is just amazing, and pprint from Python 3.10 learnt to print dataclasses with indentation, so if you can convert your code to @dataclass this is a very good approach:

from dataclasses import dataclass
from pprint import pprint

@dataclass
class MyClass1:
    s: str
    n0: int
    n1: int
    n2: int
    n3: int
    n4: int
    n5: int
    n6: int
    n7: int
    n8: int
    n9: int

@dataclass
class MyClass2:
    s: str
    n0: int
    n1: int
    n2: int
    n3: int
    n4: int
    n5: int
    n6: int
    n7: int
    n8: int
    n9: int
    my_class_1: MyClass1

obj = MyClass2(s='a', n0=0, n1=1, n2=2, n3=3, n4=4, n5=5, n6=6, n7=7, n8=8, n9=9, my_class_1=MyClass1(s='a', n0=0, n1=1, n2=2, n3=3, n4=4, n5=5, n6=6, n7=7, n8=8, n9=9))
print(obj)
pprint(obj)

Output:

MyClass2(s='a', n0=0, n1=1, n2=2, n3=3, n4=4, n5=5, n6=6, n7=7, n8=8, n9=9, my_class_1=MyClass1(s='a', n0=0, n1=1, n2=2, n3=3, n4=4, n5=5, n6=6, n7=7, n8=8, n9=9))
MyClass2(s='a',
         n0=0,
         n1=1,
         n2=2,
         n3=3,
         n4=4,
         n5=5,
         n6=6,
         n7=7,
         n8=8,
         n9=9,
         my_class_1=MyClass1(s='a',
                             n0=0,
                             n1=1,
                             n2=2,
                             n3=3,
                             n4=4,
                             n5=5,
                             n6=6,
                             n7=7,
                             n8=8,
                             n9=9))

See also: Pretty-print dataclasses prettier with line breaks and indentation

@dataclass also gives you other very good features for free:

Vs other answers

Let's create a comparable non @dataclass code

from pprint import pprint

class MyClass1:
    def __init__(self, s, n0, n1, n2, n3, n4, n5, n6, n7, n8, n9):
        self.s = s
        self.n0 = n0
        self.n1 = n1
        self.n2 = n2
        self.n3 = n3
        self.n4 = n4
        self.n5 = n5
        self.n6 = n6
        self.n7 = n7
        self.n8 = n8
        self.n9 = n9

class MyClass2:
    def __init__(self, s, n0, n1, n2, n3, n4, n5, n6, n7, n8, n9, my_class_1):
        self.s = s
        self.n0 = n0
        self.n1 = n1
        self.n2 = n2
        self.n3 = n3
        self.n4 = n4
        self.n5 = n5
        self.n6 = n6
        self.n7 = n7
        self.n8 = n8
        self.n9 = n9
        self.n9 = n9
        self.my_class_1 = my_class_1

obj = MyClass2(s='a', n0=0, n1=1, n2=2, n3=3, n4=4, n5=5, n6=6, n7=7, n8=8, n9=9, my_class_1=MyClass1(s='a', n0=0, n1=1, n2=2, n3=3, n4=4, n5=5, n6=6, n7=7, n8=8, n9=9))
pprint(vars(obj))

pprint(vars(obj)) output is non-recursive:

{'my_class_1': <__main__.MyClass1 object at 0x7fee21a9bf70>,
 'n0': 0,
 'n1': 1,
 'n2': 2,
 'n3': 3,
 'n4': 4,
 'n5': 5,
 'n6': 6,
 'n7': 7,
 'n8': 8,
 'n9': 9,
 's': 'a'}

Tested on Python 3.10.7, Ubuntu 22.10.

1

I wanted to var_dump / print_r the browser state of Selenium, but some of its class properties are not always implemented / accessible (depending on the browser used), which causes exceptions in some cases. None of the solutions posted so far seemed to be able to work around that problem, so I was unable to dump all properties before things crashed. This is the only clean solution I could come up with:

import warnings

def dump(obj):
  for name in dir(obj):
    e = False
    with warnings.catch_warnings():
      warnings.simplefilter("ignore")
      try:
        v = getattr(obj, name)
      except:
        e = True
      warnings.simplefilter("default")
    if not e:
      print("obj.%s = %r" % (name, v))
    else:
      print("<inaccessible property obj.%s>" % name)

This also suppresses warnings (e.g. deprecations) upon accessing properties. Note that it is not recursive.

0

You can try the Flask Debug Toolbar.
https://pypi.python.org/pypi/Flask-DebugToolbar

from flask import Flask
from flask_debugtoolbar import DebugToolbarExtension

app = Flask(__name__)

# the toolbar is only enabled in debug mode:
app.debug = True

# set a 'SECRET_KEY' to enable the Flask session cookies
app.config['SECRET_KEY'] = '<replace with a secret key>'

toolbar = DebugToolbarExtension(app)
0

From the answer, it can be slightly modified to get only 'Attributes' of an object as below:

def getAttributes(obj):
    from pprint import pprint
    from inspect import getmembers
    from types import FunctionType
    
    def attributes(obj):
        disallowed_names = {
          name for name, value in getmembers(type(obj)) 
            if isinstance(value, FunctionType)}
        return {
          name for name in dir(obj) 
            if name[0] != '_' and name not in disallowed_names and hasattr(obj, name)}
    pprint(attributes(obj))

It is helpful when adding this function temporary and can be removed without many changes in existing source code

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