Think Python/Tuples

Tuples are immutable
A tuple is a sequence of values. The values can be any type, and they are indexed by integers, so in that respect tuples are a lot like lists. The important difference is that tuples are immutable.

Syntactically, a tuple is a comma-separated list of values: Although it is not necessary, it is common to enclose tuples in parentheses:

To create a tuple with a single element, you have to include the final comma:

Without the comma, Python treats  as a string in parentheses: Another way to create a tuple is the built-in function. With no argument, it creates an empty tuple:

If the argument is a sequence (string, list or tuple), the result is a tuple with the elements of the sequence: Because  is the name of a built-in function, you should avoid using it as a variable name.

Most list operators also work on tuples. The bracket operator indexes an element:

And the slice operator selects a range of elements.

But if you try to modify one of the elements of the tuple, you get an error:

You can&#X2019;t modify the elements of a tuple, but you can replace one tuple with another:

Tuple assignment
It is often useful to swap the values of two variables. With conventional assignments, you have to use a temporary variable. For example, to swap  and  : This solution is cumbersome; tuple assignment is more elegant: The left side is a tuple of variables; the right side is a tuple of expressions. Each value is assigned to its respective variable. All the expressions on the right side are evaluated before any of the assignments.

The number of variables on the left and the number of values on the right have to be the same:

More generally, the right side can be any kind of sequence (string, list or tuple). For example, to split an email address into a user name and a domain, you could write:

The return value from  is a list with two elements; the first element is assigned to, the second to.

Tuples as return values
Strictly speaking, a function can only return one value, but if the value is a tuple, the effect is the same as returning multiple values. For example, if you want to divide two integers and compute the quotient and remainder, it is inefficient to compute  and then. It is better to compute them both at the same time.

The built-in function  takes two arguments and returns a tuple of two values, the quotient and remainder. You can store the result as a tuple: Or use tuple assignment to store the elements separately:

Here is an example of a function that returns a tuple: and  are built-in functions that find the largest and smallest elements of a sequence. computes both and returns a tuple of two values.

Variable-length argument tuples
Functions can take a variable number of arguments. A parameter name that begins with  gathers arguments into a tuple. For example, takes any number of arguments and prints them: The gather parameter can have any name you like, but  is conventional. Here&#X2019;s how the function works: You can combine the gather operator with required and positional arguments: Run this function with 1, 2, 3 and 4 or more arguments and make sure you understand what it does.

The complement of gather is scatter. If you have a sequence of values and you want to pass it to a function as multiple arguments, you can use the  operator. For example,  takes exactly two arguments; it doesn&#X2019;t work with a tuple:

But if you scatter the tuple, it works:

Exercise 1
''Many of the built-in functions use variable-length argument tuples. For example, ' ' and ' ' can take any number of arguments:''

But ' ' does not.

Write a function called ' ' that takes any number of arguments and returns their sum.

Lists and tuples
is a built-in function that takes two or more sequences and &#X201C;zips&#X201D; them into a list1 of tuples where each tuple contains one element from each sequence.

This example zips a string and a list: The result is a list of tuples where each tuple contains a character from the string and the corresponding element from the list.

If the sequences are not the same length, the result has the length of the shorter one. You can use tuple assignment in a  loop to traverse a list of tuples:

Each time through the loop, Python selects the next tuple in the list and assigns the elements to  and . The output of this loop is:

If you combine,   and tuple assignment, you get a useful idiom for traversing two (or more) sequences at the same time. For example,  takes two sequences,   and , and returns  if there is an index such that :

If you need to traverse the elements of a sequence and their indices, you can use the built-in function :

The output of this loop is: Again.

Dictionaries and tuples
Dictionaries have a method called  that returns a list of tuples, where each tuple is a key-value pair2. As you should expect from a dictionary, the items are in no particular order.

Conversely, you can use a list of tuples to initialize a new dictionary: Combining  with   yields a concise way to create a dictionary:

The dictionary method  also takes a list of tuples and adds them, as key-value pairs, to an existing dictionary.

Combining, tuple assignment and  , you get the idiom for traversing the keys and values of a dictionary: The output of this loop is: Again.

It is common to use tuples as keys in dictionaries (primarily because you can&#X2019;t use lists). For example, a telephone directory might map from last-name, first-name pairs to telephone numbers. Assuming that we have defined,   and  , we could write: The expression in brackets is a tuple. We could use tuple assignment to traverse this dictionary.

This loop traverses the keys in, which are tuples. It assigns the elements of each tuple to  and , then prints the name and corresponding telephone number.

There are two ways to represent tuples in a state diagram. The more detailed version shows the indices and elements just as they appear in a list. For example, the tuple  would appear:

 But in a larger diagram you might want to leave out the details. For example, a diagram of the telephone directory might appear:  Here the tuples are shown using Python syntax as a graphical shorthand.

The telephone number in the diagram is the complaints line for the BBC, so please don&#X2019;t call it.

Comparing tuples
The comparison operators work with tuples and other sequences; Python starts by comparing the first element from each sequence. If they are equal, it goes on to the next elements, and so on, until it finds elements that differ. Subsequent elements are not considered (even if they are really big). The  function works the same way. It sorts primarily by first element, but in the case of a tie, it sorts by second element, and so on.

This feature lends itself to a pattern called DSU for Decorate a sequence by building a list of tuples with one or more sort keys preceding the elements from the sequence,Sort</DT><DD CLASS="dd-description"> the list of tuples, and</DD><DT CLASS="dt-description">Undecorate</DT><DD CLASS="dd-description"> by extracting the sorted elements of the sequence.</DD></DL>

For example, suppose you have a list of words and you want to sort them from longest to shortest: The first loop builds a list of tuples, where each tuple is a word preceded by its length.

compares the first element, length, first, and only considers the second element to break ties. The keyword argument tells  to go in decreasing order.

The second loop traverses the list of tuples and builds a list of words in descending order of length.

Exercise 2
''In this example, ties are broken by comparing words, so words with the same length appear in alphabetical order. For other applications you might want to break ties at random. Modify this example so that words with the same length appear in random order. Hint: see the ' ' function in the ' ' module.''

Sequences of sequences
I have focused on lists of tuples, but almost all of the examples in this chapter also work with lists of lists, tuples of tuples, and tuples of lists. To avoid enumerating the possible combinations, it is sometimes easier to talk about sequences of sequences.

In many contexts, the different kinds of sequences (strings, lists and tuples) can be used interchangeably. So how and why do you choose one over the others?

To start with the obvious, strings are more limited than other sequences because the elements have to be characters. They are also immutable. If you need the ability to change the characters in a string (as opposed to creating a new string), you might want to use a list of characters instead.

Lists are more common than tuples, mostly because they are mutable. But there are a few cases where you might prefer tuples:


 * In some contexts, like a  statement, it is syntactically simpler to create a tuple than a list. In other contexts, you might prefer a list.
 * If you want to use a sequence as a dictionary key, you have to use an immutable type like a tuple or string.
 * If you are passing a sequence as an argument to a function, using tuples reduces the potential for unexpected behavior due to aliasing.

Because tuples are immutable, they don&#X2019;t provide methods like  and , which modify existing lists. But Python provides the built-in functions and, which take any sequence as a parameter and return a new list with the same elements in a different order.

Debugging
Lists, dictionaries and tuples are known generically as data structures; in this chapter we are starting to see compound data structures, like lists of tuples, and dictionaries that contain tuples as keys and lists as values. Compound data structures are useful, but they are prone to what I call shape errors; that is, errors caused when a data structure has the wrong type, size or composition. For example, if you are expecting a list with one integer and I give you a plain old integer (not in a list), it won&#X2019;t work.

To help debug these kinds of errors, I have written a module called  that provides a function, also called , that takes any kind of data structure as an argument and returns a string that summarizes its shape. You can download it from

Here&#X2019;s the result for a simple list: A fancier program might write &#X201C;list of 3 ints,&#X201D; but it was easier not to deal with plurals. Here&#X2019;s a list of lists: If the elements of the list are not the same type, groups them, in order, by type: Here&#X2019;s a list of tuples: And here&#X2019;s a dictionary with 3 items that map integers to strings. If you are having trouble keeping track of your data structures, can help.

Glossary
<DL CLASS="description"><DT CLASS="dt-description">tuple:</DT><DD CLASS="dd-description"> An immutable sequence of elements. </DD><DT CLASS="dt-description">tuple assignment:</DT><DD CLASS="dd-description"> An assignment with a sequence on the right side and a tuple of variables on the left. The right side is evaluated and then its elements are assigned to the variables on the left.

</DD><DT CLASS="dt-description">gather:</DT><DD CLASS="dd-description"> The operation of assembling a variable-length argument tuple. </DD><DT CLASS="dt-description">scatter:</DT><DD CLASS="dd-description"> The operation of treating a sequence as a list of arguments. </DD><DT CLASS="dt-description">DSU:</DT><DD CLASS="dd-description"> Abbreviation of &#X201C;decorate-sort-undecorate,&#X201D; a pattern that involves building a list of tuples, sorting, and extracting part of the result. </DD><DT CLASS="dt-description">data structure:</DT><DD CLASS="dd-description"> A collection of related values, often organized in lists, dictionaries, tuples, etc. </DD><DT CLASS="dt-description">shape (of a data structure):</DT><DD CLASS="dd-description"> A summary of the type, size and composition of a data structure. </DD></DL>

Exercise 3
Write a function called  '' that takes a string and prints the letters in decreasing order of frequency. Find text samples from several different languages and see how letter frequency varies between languages. Compare your results with the tables at ' '.''

Exercise 4
More anagrams!

Here is an example of what the output might look like: ''Hint: you might want to build a dictionary that maps from a set of letters to a list of words that can be spelled with those letters. The question is, how can you represent the set of letters in a way that can be used as a key?''
 * Write a program that reads a word list from a file (see Section&#XA0;'9.1') and prints all the sets of words that are anagrams.


 * Modify the previous program so that it prints the largest set of anagrams first, followed by the second largest set, and so on.


 * In Scrabble a &#X201C;bingo&#X201D; is when you play all seven tiles in your rack, along with a letter on the board, to form an eight-letter word. What set of 8 letters forms the most possible bingos? Hint: there are seven.


 * 'Two words form a &#X201C;metathesis pair&#X201D; if you can transform one into the other by swapping two letters'<SUP>'3'</SUP>'; for example, &#X201C;converse&#X201D; and &#X201C;conserve.&#X201D; Write a program that finds all of the metathesis pairs in the dictionary. Hint: don&#X2019;t test all pairs of words, and don&#X2019;t test all possible swaps.'

'You can download a solution from  .'

Exercise 5
Here&#X2019;s another Car Talk Puzzler<SUP>4</SUP>:

<BLOCKQUOTE CLASS="quote"> What is the longest English word, that remains a valid English word, as you remove its letters one at a time?

''Now, letters can be removed from either end, or the middle, but you can&#X2019;t rearrange any of the letters. Every time you drop a letter, you wind up with another English word. If you do that, you&#X2019;re eventually going to wind up with one letter and that too is going to be an English word&#X2014;one that&#X2019;s found in the dictionary. I want to know what&#X2019;s the longest word and how many letters does it have?''

''I&#X2019;m going to give you a little modest example: Sprite. Ok? You start off with sprite, you take a letter off, one from the interior of the word, take the r away, and we&#X2019;re left with the word spite, then we take the e off the end, we&#X2019;re left with spit, we take the s off, we&#X2019;re left with pit, it, and I.'' </BLOCKQUOTE>

Write a program to find all words that can be reduced in this way, and then find the longest one.

This exercise is a little more challenging than most, so here are some suggestions:
 * You might want to write a function that takes a word and computes a list of all the words that can be formed by removing one letter. These are the &#X201C;children&#X201D; of the word.
 * Recursively, a word is reducible if any of its children are reducible. As a base case, you can consider the empty string reducible.
 * The wordlist I provided, ' ', doesn&#X2019;t contain single letter words. So you might want to add &#X201C;I&#X201D;, &#X201C;a&#X201D;, and the empty string.
 * To improve the performance of your program, you might want to memoize the words that are known to be reducible.

You can see my solution at ' '.

<HR CLASS="footnoterule"><DL CLASS="thefootnotes"><DT CLASS="dt-thefootnotes"> 1</DT><DD CLASS="dd-thefootnotes">In Python 3.0,  returns an iterator of tuples, but for most purposes, an iterator behaves like a list. </DD><DT CLASS="dt-thefootnotes">2</DT><DD CLASS="dd-thefootnotes">This behavior is slightly different in Python 3.0. </DD><DT CLASS="dt-thefootnotes">3</DT><DD CLASS="dd-thefootnotes">This exercise is inspired by an example at. </DD><DT CLASS="dt-thefootnotes">4</DT><DD CLASS="dd-thefootnotes"> </DD></DL>