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without explicit (type) declaration I struggle to try to figure out how things work --- are there some good thumbs of rule/tips that you may have for reading python code better? Thanks!

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closed as not constructive by interjay, Jon Clements, mmgp, Abizern, code_burgar Feb 10 '13 at 18:55

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

Can you be more specific? Python is arguably the most readable programming language there is; I don't see how you are unable to read it. – Rushy Panchal Feb 10 '13 at 16:11
if you don't like dynamic typing python is probably not the right language for you – gefei Feb 10 '13 at 16:13
We really need some more information on what exactly is hard for you to read. It seems pretty simple to me. – user2032433 Feb 10 '13 at 16:13
up vote 2 down vote accepted

In spite of the first impression that this question gives, I think it is indeed really intelligent because it reveals that you are subconscious of something that should interest any Python's developper but that I find very neglected in general and in explanations in particular, if not misunderstood.

I mean that IMO the base of Python is terrificly quaint and intelligent: it's the data model on which it has been conceived.
In this Python's data model, there are no variables in the sense of "chunks of memory whose contents can change", contrary to other languages, and in the sense that we don't manage this precise kind of variables in Python.

More precisely, all is object in Python, and every object is named and designed with an identifier, but neither the object nor the identifier are 'variables' in the said sense.

That doesn't mean that there are no little boxes, so called variables in other languages, temporarily hosting values that go in and out of them, in the depthes of the implementation.


Say an object is designed with the identifier XYA2.
Personally I use this appearance of letters to designate any identifier. An identifier is nothing else than a word written in a code. It is what appears in a code.
Note that this appearance of letters is the one used by this site to represent a code sample inside text, by clicking on the button {}. That's easy to remind.

Now, the object whose name is XYA2 is a real thing, a concrete set of bits lying in the memory of the computer to represent the desired conceptual value that it stands for.
This set is defined in C language in which Python is implemented.
Personnaly, I bold the letters when I want to designate an object.
Then the object of name XYA2 is, for me, refered to by XYA2

The identifier is XYA2
It is linked to an underlying and inaccessible pointer that points to the object.
This link is done by means of the symbol table. You will see very few references or allusions to symbol table in general, here on stackoverflow or elsewhere. However it's very important, I think.

The pointer linked to the identifier XYA2 points to the object XYA2
So, XYA2 is directly linked to the pointer and indirectly linked to the object.
Instead of saying "indirectly linked", we say "assigned". An object and its identifier are reciprocally assigned one to the other, but the medium of this link is the underlying pointer.


And now, something important.
Strictly speaking, a variable is a "chunk of memory whose content can change".
I personally do efforts to never use the word 'variable' in an other sense that this one.
The problem is that, because of the use of the word 'variable' in mathematics, this word is very often used indiscriminately and thrown in all the wind's directions by many developpers (not all) even when it isn't justified.
Thereby, it is commonly used by nearly everybody to designates the names, aka the identifiers in a code. But this practice is horribly confusing. It should be carefully avoided.

That said, an object in Python is not only an instance of some class, it is above all a concrete set of bits; set which IS NOT, as far as I know, a variable, in the sense of "chunk of memory whose content can change".
Hence my opinion that there aren't variables in Python, since the only entities we can access to and manipulate are identifiers and objects.

However, the processes under the hood in an executed Python program use quantities of pointers that are, as far as I know, real variables in the strict sense of this word.
So, in a sense, it could be said that my affirmation 'There are no variables in Python" is false.
It's a matter of point of view.
As a developer in Python, conceptually speaking, I don't manage variables. When I think to an algorithm, I don't think at the level of the pointers, even if I know they exist and that it's very important to know they exist. Being not at the level of the variables, but at the level of the Python's data model, I don't see why I should accept to believe that there are variables in a Python program. There are variables at the machine low-level, and Python is a very-high-level language.


Why did I write all this ?

because the nature of the Python's data model has quantities of consequences that can't be understood if this data model isn't known. Among these consequences, some are interesting because they give incredible possibilities, others are traps (a well known example is: modifying an element in a copied list modifies also the element in the original list). That's why it's of first importance to learn about this data model.

For that, I recommend you to read these parts of the documentation:
3.1 of objects-values-and-types
4.1 of naming-and-binding


To justify my answer to your perplexity: don't struggle about what happens under the hood:
there's a garbage colector, a reference counter, wagons of underlying dictionaries-like entities, a thunderous ballet of values in the secret of the underlying pointers, many verifications made by the interpreter... When something doesn't fit well , warning is given in the form of exception's messages.

Python has all the machinery under control

The only concern you must have is to think about the algorithm you want to achieve, and for that, knowing the data model is essential.

Welcome in the Python universe


I don't consider myself as a very skilled Python developper, I'm just an amateur who had a lot of problems before understanding some essential things about Python.
All the above description is my personal views about the data model of Python. If any point is incorrect in this description, I will be happy to learn more about it if the teaching is done with developped argumentation.
But I underline the fact that this vision of things allows me to understand and to answer to a lot of tough problems and to achieve some tricky mechanisms that Python is capable of. So, all can't be false in this above description.

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You should take a look at PEP8 documentation This describes the Python formatting and style.

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Read up on Duck Typing. One of the purposes of Duck Typing is that you shouldn't be thinking too much about the type of something anyway. What really concerns you is that the the variable can be used the way that you want it.

In Python, you don't need a type declaration because the name you assign is just a pointer to an object, and furthermore it can change at any time.

a = None
a = 1+5
a = my_function() # calls my function and assigns the return object to a
a = my_function # Assigns the function itself to a. You could actually pass it as a parameter
a = MyClass() # Runs the __init__() function of the class and assigns the return value to a
a = MyClass # Assigns the class itself to a.

This is all valid Python. You could run this sequentially, although changing up the type is frowned upon unless its totally clear as to why.

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"you shouldn't be thinking too much about the type of something anyway. What really concerns you is that the (-censored-) can be used the way that you want it." That's what I wanted to say in my answer. However, you use this horrid word that befogs all the explanations in Python, the word 'variable', because nobody knows exactly what is designed when someone employs this word: the identifier, the object , a real variable ? – eyquem Feb 10 '13 at 18:44
True. The thing that needs to be clear to anyone new to Python coming from more traditional languages is that everything is an object. I used the term variable because it's more accessible than object, although you're right that it lends itself to ambiguity. – Ben Mordecai Feb 10 '13 at 18:46
In reality you want to know that the object can be used the way that you want it to, since what actually happens when you assign a = 1+5 is that object 1 and object 5 are evaluated as ints and a new object 6 is created unless it already exists and attaches the identifier a to the object 6 – Ben Mordecai Feb 10 '13 at 18:49
" the name you assign is just a pointer to an object, and furthermore it can change at any time." Strictly speaking, a name is not a pointer. A name is just a collections of letters (or more exactly a collection of characters represented by a collections of letters, but that's another story). A name used as identifier is linked to a pointer and assigned to an object. Concerning the identifier a you use in your code, it doesn't change, it's always a, uh ? The change that a can support is to be assigned to an other object. What changes is the value in the pointer – eyquem Feb 10 '13 at 18:51
"I used the term variable because it's more accessible than object," And then ? You really think it's a good justification ?? That's as if someone would say : "I know a hammer would be better for this nail, but my toolbox is far in the garage and I have plenty of forks in my kitchen". – eyquem Feb 10 '13 at 19:05

if you know the c++11 then it is similer to auto type.

The variable type is decided on the bases of its assignment. 
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Nah, type inference (such as C++11's auto) just makes the static types implicit, whereas Python is dynamically typed. auto a = 1; a = "foo"; doesn't work, whereas the Python equivalent works fine. Moreover, this wasn't really the question. – delnan Feb 10 '13 at 18:58
@delnan ya you are right. but i used the similer not equal. ;) – Arpit Feb 10 '13 at 19:21
@delnan Hello. You are not right. Something whose type can't change can't be dynamically typed. "An object’s type is also unchangeable." [… The objects in Python are statically typed but the data model of Python makes people believe it because the assignation of an identifier can change from an object to an other. But as there is no meaning to say that an identifier has its type changing, the result is that the affirmation of a dynamically typing in Python is itself meaningless. – eyquem Feb 10 '13 at 19:32
in reality i'm a beginner. i know just basics so i ans. what i know . :) but python is dynamic type. – Arpit Feb 10 '13 at 19:39
@eyquem You can play Humpty Dumpty ("When I use a word, it means just what I choose it to mean"), but Python is dynamically typed in every sense of the word: There is no static type system, types of whatever you think has types are determined at runtime, not through static analysis, etc. (Also note that I never said names have types.) – delnan Feb 10 '13 at 19:54

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