Dictionaries in Python
In Python, a dictionary is a built-in data type that stores data in key-value pairs. It is an unordered, mutable, and indexed collection. Each key in a dictionary is unique and maps to a value. Dictionaries are often used to store data that is related, such as information associated with a specific entity or object, where you can quickly retrieve a value based on its key.
Python”s dictionary is an example of a mapping type. A mapping object ”maps” the value of one object to another. To establish mapping between a key and a value, the colon (:) symbol is put between the two.
Each key-value pair is separated by a comma and enclosed within curly braces {}. The key and value within each pair are separated by a colon (:), forming the structure key:value.
Given below are some examples of Python dictionary objects −
capitals = {"Maharashtra":"Mumbai", "Gujarat":"Gandhinagar", "Telangana":"Hyderabad", "Karnataka":"Bengaluru"} numbers = {10:"Ten", 20:"Twenty", 30:"Thirty",40:"Forty"} marks = {"Savita":67, "Imtiaz":88, "Laxman":91, "David":49}
Key Features of Dictionaries
Following are the key features of dictionaries −
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Unordered − The elements in a dictionary do not have a specific order. Python dictionaries before version 3.7 did not maintain insertion order. Starting from Python 3.7, dictionaries maintain insertion order as a language feature.
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Mutable − You can change, add, or remove items after the dictionary has been created.
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Indexed − Although dictionaries do not have numeric indexes, they use keys as indexes to access the associated values.
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Unique Keys − Each key in a dictionary must be unique. If you try to assign a value to an existing key, the old value will be replaced by the new value.
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Heterogeneous − Keys and values in a dictionary can be of any data type.
Example 1
Only a number, string or tuple can be used as key. All of them are immutable. You can use an object of any type as the value. Hence following definitions of dictionary are also valid −
d1 = {"Fruit":["Mango","Banana"], "Flower":["Rose", "Lotus"]} d2 = {(''India, USA''):''Countries'', (''New Delhi'', ''New York''):''Capitals''} print (d1) print (d2)
It will produce the following output −
{''Fruit'': [''Mango'', ''Banana''], ''Flower'': [''Rose'', ''Lotus'']} {''India, USA'': ''Countries'', (''New Delhi'', ''New York''): ''Capitals''}
Example 2
Python doesn”t accept mutable objects such as list as key, and raises TypeError.
d1 = {["Mango","Banana"]:"Fruit", "Flower":["Rose", "Lotus"]} print (d1)
It will raise a TypeError −
Traceback (most recent call last): File "C:UsersSairamPycharmProjectspythonProjectmain.py", line 8, in <module> d1 = {["Mango","Banana"]:"Fruit", "Flower":["Rose", "Lotus"]} ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ TypeError: unhashable type: ''list''
Example 3
You can assign a value to more than one keys in a dictionary, but a key cannot appear more than once in a dictionary.
d1 = {"Banana":"Fruit", "Rose":"Flower", "Lotus":"Flower", "Mango":"Fruit"} d2 = {"Fruit":"Banana","Flower":"Rose", "Fruit":"Mango", "Flower":"Lotus"} print (d1) print (d2)
It will produce the following output −
{''Banana'': ''Fruit'', ''Rose'': ''Flower'', ''Lotus'': ''Flower'', ''Mango'': ''Fruit''} {''Fruit'': ''Mango'', ''Flower'': ''Lotus''}
Creating a Dictionary
You can create a dictionary in Python by placing a comma-separated sequence of key-value pairs within curly braces {}, with a colon : separating each key and its associated value. Alternatively, you can use the dict() function.
Example
The following example demonstrates how to create a dictionary called “student_info” using both curly braces and the dict() function −
# Creating a dictionary using curly braces sports_player = { "Name": "Sachin Tendulkar", "Age": 48, "Sport": "Cricket" } print ("Dictionary using curly braces:", sports_player) # Creating a dictionary using the dict() function student_info = dict(name="Alice", age=21, major="Computer Science") print("Dictionary using dict():",student_info)
The result produced is as shown below −
Dictionary using curly braces: {''Name'': ''Sachin Tendulkar'', ''Age'': 48, ''Sport'': ''Cricket''} Dictionary using dict(): {''name'': ''Alice'', ''age'': 21, ''major'': ''Computer Science''}
Accessing Dictionary Items
You can access the value associated with a specific key using square brackets [] or the get() method −
student_info = { "name": "Alice", "age": 21, "major": "Computer Science" } # Accessing values using square brackets name = student_info["name"] print("Name:",name) # Accessing values using the get() method age = student_info.get("age") print("Age:",age)
The result obtained is as follows −
Name: Alice Age: 21
Modifying Dictionary Items
You can modify the value associated with a specific key or add a new key-value pair −
student_info = { "name": "Alice", "age": 21, "major": "Computer Science" } # Modifying an existing key-value pair student_info["age"] = 22 # Adding a new key-value pair student_info["graduation_year"] = 2023 print("The modified dictionary is:",student_info)
Output of the above code is as follows −
The modified dictionary is: {''name'': ''Alice'', ''age'': 22, ''major'': ''Computer Science'', ''graduation_year'': 2023}
Removing Dictionary Items
You can remove items using the del statement, the pop() method, or the popitem() method −
student_info = { "name": "Alice", "age": 22, "major": "Computer Science", "graduation_year": 2023 } # Removing an item using the del statement del student_info["major"] # Removing an item using the pop() method graduation_year = student_info.pop("graduation_year") print(student_info)
Following is the output of the above code −
{''name'': ''Alice'', ''age'': 22}
Iterating Through a Dictionary
You can iterate through the keys, values, or key-value pairs in a dictionary using loops −
student_info = { "name": "Alice", "age": 22, "major": "Computer Science", "graduation_year": 2023 } # Iterating through keys for key in student_info: print("Keys:",key, student_info[key]) # Iterating through values for value in student_info.values(): print("Values:",value) # Iterating through key-value pairs for key, value in student_info.items(): print("Key:Value:",key, value)
After executing the above code, we get the following output −
Keys: name Alice Keys: age 22 Keys: major Computer Science Keys: graduation_year 2023 Values: Alice Values: 22 Values: Computer Science Values: 2023 Key:Value: name Alice Key:Value: age 22 Key:Value: major Computer Science Key:Value: graduation_year 2023
Properties of Dictionary Keys
Dictionary values have no restrictions. They can be any arbitrary Python object, either standard objects or user-defined objects. However, same is not true for the keys.
There are two important points to remember about dictionary keys −
- More than one entry per key not allowed. Which means no duplicate key is allowed. When duplicate keys encountered during assignment, the last assignment wins. For example −
dict = {''Name'': ''Zara'', ''Age'': 7, ''Name'': ''Manni''} print ("dict[''Name'']: ", dict[''Name''])
When the above code is executed, it produces the following result −
dict[''Name'']: Manni
dict = {[''Name'']: ''Zara'', ''Age'': 7} print ("dict[''Name'']: ", dict[''Name''])
When the above code is executed, it produces the following result −
Traceback (most recent call last): File "test.py", line 3, in <module> dict = {[''Name'']: ''Zara'', ''Age'': 7}; TypeError: unhashable type: ''list''
Python Dictionary Operators
In Python, following operators are defined to be used with dictionary operands. In the example, the following dictionary objects are used.
d1 = {''a'': 2, ''b'': 4, ''c'': 30} d2 = {''a1'': 20, ''b1'': 40, ''c1'': 60}
Operator | Description | Example |
---|---|---|
dict[key] | Extract/assign the value mapped with key | print (d1[”b”]) retrieves 4
d1[”b”] = ”Z” assigns new value to key ”b” |
dict1|dict2 | Union of two dictionary objects, returning new object | d3=d1|d2 ; print (d3)
{”a”: 2, ”b”: 4, ”c”: 30, ”a1”: 20, ”b1”: 40, ”c1”: 60} |
dict1|=dict2 | Augmented dictionary union operator | d1|=d2; print (d1)
{”a”: 2, ”b”: 4, ”c”: 30, ”a1”: 20, ”b1”: 40, ”c1”: 60} |
Python Dictionary Methods
Python includes following dictionary methods −
Sr.No. | Methods with Description |
---|---|
1 |
Removes all elements of dictionary dict |
2 |
Returns a shallow copy of dictionary dict |
3 |
Create a new dictionary with keys from seq and values set to value. |
4 |
For key key, returns value or default if key not in dictionary |
5 |
Returns true if key in dictionary dict, false otherwise |
6 |
Returns a list of dict”s (key, value) tuple pairs |
7 |
Returns list of dictionary dict”s keys |
8 |
Similar to get(), but will set dict[key]=default if key is not already in dict |
9 |
Adds dictionary dict2”s key-values pairs to dict |
10 |
Returns list of dictionary dict”s values |
Built-in Functions with Dictionaries
Following are the built-in functions we can use with Dictionaries −
Sr.No. | Function with Description |
---|---|
1 |
Compares elements of both dict. |
2 |
Gives the total length of the dictionary. This would be equal to the number of items in the dictionary. |
3 |
Produces a printable string representation of a dictionary |
4 |
Returns the type of the passed variable. If passed variable is dictionary, then it would return a dictionary type. |