Boston Python Workshop 3/Data types: Difference between revisions
Content added Content deleted
imported>Jesstess |
imported>Jesstess |
||
(13 intermediate revisions by the same user not shown) | |||
Line 1:
==Numbers: integers and floats==
* Integers don't have a decimal place.
* Floats have a decimal place.
* Math mostly works the way it does on a calculator, and you can use parentheses to override the order of operations.
====Math: addition, subtraction, multiplication====
<b>addition</b>: 2 + 2<br />
<b>subtraction</b>: 0 - 2<br />
<b>multiplication</b>: 2 * 3<br />
====
<pre>
Line 31 ⟶ 20:
</pre>
* Integer
<pre>
Line 38 ⟶ 27:
>>> float(1) / 2
0.5
</pre>
Line 59 ⟶ 39:
==Strings==
* Strings are bits of text, and contain characters like numbers, letters, whitespace, and punctuation.
* String are surrounded by quotes.
* Use triple-quotes (""") to create whitespace-preserving multi-line strings.
<pre>
Line 68 ⟶ 52:
<pre>
>>>
HelloWorld
>>> "Hello" + "World" + 1
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: cannot concatenate 'str' and 'int' objects
>>> "Hello" + "World" + str(1)
'HelloWorld1'
</pre>
Line 75 ⟶ 65:
<pre>
>>> print "Hello" + "World"
HelloWorld
>>> print "Hello", "World"
Hello World
>>> print "Hello", "World", 1
Hello World 1
</pre>
<pre>
>>> print """In 2009,
... The monetary component of the Nobel Prize
... was US $1.4 million."""
In 2009,
The monetary component of the Nobel Prize
was US $1.4 million.
</pre>
Line 88 ⟶ 87:
>>> type("Hello")
<type 'str'>
</pre>
==Booleans==
* There are two booleans, <code>True</code> and <code>False</code>.
* Use booleans to make decisions.
====Containment with 'in' and 'not in'====
<pre>
>>> "H" in "Hello"
True
>>> "a" not in ["a", "b", "c"]
False
</pre>
====Equality====
* <code>==</code> tests for equality
* <codE>!=</code> tests for inequality
* <code><</code>, <code><=</code>, <code>></code>, and <code>>=</code> have the same meaning as in math class.
<pre>
>>> 0 == 0
True
>>> 0 == 1
False
</pre>
<pre>
"a" != "a"
</pre>
<pre>
"a" != "A"
</pre>
====Use with if/else blocks====
* When Python encounters the <code>if</code> keyword, it evaluates the expression following the keyword and before the colon. If that expression is <code>True</code>, Python executes the code in the indented code block under the if line. If that expression is <code>False</code>, Python skips over the code block.
<pre>
temperature = 32
if temperature > 60 and temperature < 75:
print "It's nice and cozy in here!"
else:
print "Too extreme for me."
</pre>
====Types====
<pre>
>>> type(True)
<type 'bool'>
>>> type(False)
<type 'bool'>
</pre>
==Lists==
* Use lists to store data where order matters.
* Lists are indexed starting with 0.
====List initialization====
<pre>
>>> my_list = []
>>> my_list
[]
>>> your_list = ["a", "b", "c", 1, 2, 3]
>>> your_list
['a', 'b', 'c', 1, 2, 3]
</pre>
====Access and adding elements to a list====
<pre>
>>> len(my_list)
0
>>> my_list[0]
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
IndexError: list index out of range
>>> my_list.append("Alice")
>>> my_list
['Alice']
>>> len(my_list)
1
>>> my_list[0]
'Alice'
>>> my_list.insert(0, "Amy")
>>> my_list
['Amy', 'Alice']
</pre>
<pre>
>>> my_list = ['Amy', 'Alice']
>>> 'Amy' in my_list
True
>>> 'Bob' in my_list
False
</pre>
====Changing elements in a list====
<pre>
>>> your_list = []
>>> your_list.append("apples")
>>> your_list[0]
'apples'
>>> your_list[0] = "bananas"
>>> your_list
['bananas']
</pre>
====Slicing lists====
<pre>
>>> her_list = ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h']
>>> her_list[0]
'a'
>>> her_list[0:3]
['a', 'b', 'c']
>>> her_list[:3]
['a', 'b', 'c']
>>> her_list[-1]
'h'
>>> her_list[5:]
['f', 'g', 'h']
>>> her_list[:]
['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h']
</pre>
====Sharing versus copying====
<b>Sharing</b><br />
<pre>
>>> my_list
['Alice']
>>> your_list = my_list
>>> your_list
['Alice']
>>> my_list[0] = "Bob"
>>> my_list
['Bob']
>>> your_list
['Bob']
</pre>
<b>Copying</b><br />
<pre>
>>> my_list
['Alice']
>>> your_list = my_list[:]
>>> my_list[0] = "Bob"
>>> my_list
['Bob']
>>> your_list
['Alice']
</pre>
====Strings are a lot like lists====
<pre>
>>> my_string = "Hello World"
>>> my_string[0]
'H'
>>> my_string[:5]
'Hello'
>>> my_string[6:]
'World'
>>> my_string = my_string[:6] + "Jessica"
>>> my_string
'Hello Jessica'
</pre>
* One big way in which strings are different from lists is that lists are mutable (you can change them), and strings are immutable (you can't change them). To "change" a string you have to make a copy:
<pre>
>>> h = "Hello"
>>> h[0] = "J"
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: 'str' object does not support item assignment
>>> h = "J" + h[1:]
>>> h
'Jello'
</pre>
====Types====
<pre>
>>> type(my_list)
<type 'list'>
</pre>
==Dictionaries==
* Use dictionaries to store key/value pairs.
* Dictionaries do not guarantee ordering.
* A given key can only have one value, but multiple keys can have the same value.
====Initialization====
<pre>
>>> my_dict = {}
>>> my_dict
{}
>>> your_dict = {"Alice" : "chocolate", "Bob" : "strawberry", "Cara" : "mint chip"}
>>> your_dict
{'Bob': 'strawberry', 'Cara': 'mint chip', 'Alice': 'chocolate'}
</pre>
====Adding elements to a dictionary====
<pre>
>>> your_dict["Dora"] = "vanilla"
>>> your_dict
{'Bob': 'strawberry', 'Cara': 'mint chip', 'Dora': 'vanilla', 'Alice': 'chocolate'}
</pre>
====Accessing elements of a dictionary====
<pre>
>>> your_dict["Alice"]
'chocolate'
>>> your_dict.get("Alice")
'chocolate'
</pre>
<pre>
>>> your_dict["Eve"]
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
KeyError: 'Eve'
>>> "Eve" in her_dict
False
>>> "Alice" in her_dict
True
>>> your_dict.get("Eve")
>>> person = your_dict.get("Eve")
>>> print person
None
>>> print type(person)
<type 'NoneType'>
>>> your_dict.get("Alice")
'coconut'
</pre>
====Changing elements of a dictionary====
<pre>
>>> your_dict["Alice"] = "coconut"
>>> your_dict
{'Bob': 'strawberry', 'Cara': 'mint chip', 'Dora': 'vanilla', 'Alice': 'coconut'}
</pre>
====Types====
<pre>
>>> type(my_dict)
<type 'dict'>
</pre>
|
Latest revision as of 16:17, 12 June 2011
Numbers: integers and floats
- Integers don't have a decimal place.
- Floats have a decimal place.
- Math mostly works the way it does on a calculator, and you can use parentheses to override the order of operations.
Math: addition, subtraction, multiplication
addition: 2 + 2
subtraction: 0 - 2
multiplication: 2 * 3
Math: division
>>> 4 / 2 2 >>> 1 / 2 0
- Integer division produces an integer. You need a number that knows about the decimal point to get a decimal out of division:
>>> 1.0 / 2 0.5 >>> float(1) / 2 0.5
Types
>>> type(1) <type 'int'> >>> type(1.0) <type 'float'>
Strings
- Strings are bits of text, and contain characters like numbers, letters, whitespace, and punctuation.
- String are surrounded by quotes.
- Use triple-quotes (""") to create whitespace-preserving multi-line strings.
>>> "Hello" 'Hello'
String concatenation
>>> "Hello" + "World" HelloWorld >>> "Hello" + "World" + 1 Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: cannot concatenate 'str' and 'int' objects >>> "Hello" + "World" + str(1) 'HelloWorld1'
Printing strings
>>> print "Hello" + "World" HelloWorld >>> print "Hello", "World" Hello World >>> print "Hello", "World", 1 Hello World 1
>>> print """In 2009, ... The monetary component of the Nobel Prize ... was US $1.4 million.""" In 2009, The monetary component of the Nobel Prize was US $1.4 million.
Types
>>> type("Hello") <type 'str'>
Booleans
- There are two booleans,
True
andFalse
. - Use booleans to make decisions.
Containment with 'in' and 'not in'
>>> "H" in "Hello" True >>> "a" not in ["a", "b", "c"] False
Equality
==
tests for equality!=
tests for inequality<
,<=
,>
, and>=
have the same meaning as in math class.
>>> 0 == 0 True >>> 0 == 1 False
"a" != "a"
"a" != "A"
Use with if/else blocks
- When Python encounters the
if
keyword, it evaluates the expression following the keyword and before the colon. If that expression isTrue
, Python executes the code in the indented code block under the if line. If that expression isFalse
, Python skips over the code block.
temperature = 32 if temperature > 60 and temperature < 75: print "It's nice and cozy in here!" else: print "Too extreme for me."
Types
>>> type(True) <type 'bool'> >>> type(False) <type 'bool'>
Lists
- Use lists to store data where order matters.
- Lists are indexed starting with 0.
List initialization
>>> my_list = [] >>> my_list [] >>> your_list = ["a", "b", "c", 1, 2, 3] >>> your_list ['a', 'b', 'c', 1, 2, 3]
Access and adding elements to a list
>>> len(my_list) 0 >>> my_list[0] Traceback (most recent call last): File "<stdin>", line 1, in <module> IndexError: list index out of range >>> my_list.append("Alice") >>> my_list ['Alice'] >>> len(my_list) 1 >>> my_list[0] 'Alice' >>> my_list.insert(0, "Amy") >>> my_list ['Amy', 'Alice']
>>> my_list = ['Amy', 'Alice'] >>> 'Amy' in my_list True >>> 'Bob' in my_list False
Changing elements in a list
>>> your_list = [] >>> your_list.append("apples") >>> your_list[0] 'apples' >>> your_list[0] = "bananas" >>> your_list ['bananas']
Slicing lists
>>> her_list = ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h'] >>> her_list[0] 'a' >>> her_list[0:3] ['a', 'b', 'c'] >>> her_list[:3] ['a', 'b', 'c'] >>> her_list[-1] 'h' >>> her_list[5:] ['f', 'g', 'h'] >>> her_list[:] ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h']
Sharing versus copying
Sharing
>>> my_list ['Alice'] >>> your_list = my_list >>> your_list ['Alice'] >>> my_list[0] = "Bob" >>> my_list ['Bob'] >>> your_list ['Bob']
Copying
>>> my_list ['Alice'] >>> your_list = my_list[:] >>> my_list[0] = "Bob" >>> my_list ['Bob'] >>> your_list ['Alice']
Strings are a lot like lists
>>> my_string = "Hello World" >>> my_string[0] 'H' >>> my_string[:5] 'Hello' >>> my_string[6:] 'World' >>> my_string = my_string[:6] + "Jessica" >>> my_string 'Hello Jessica'
- One big way in which strings are different from lists is that lists are mutable (you can change them), and strings are immutable (you can't change them). To "change" a string you have to make a copy:
>>> h = "Hello" >>> h[0] = "J" Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: 'str' object does not support item assignment >>> h = "J" + h[1:] >>> h 'Jello'
Types
>>> type(my_list) <type 'list'>
Dictionaries
- Use dictionaries to store key/value pairs.
- Dictionaries do not guarantee ordering.
- A given key can only have one value, but multiple keys can have the same value.
Initialization
>>> my_dict = {} >>> my_dict {} >>> your_dict = {"Alice" : "chocolate", "Bob" : "strawberry", "Cara" : "mint chip"} >>> your_dict {'Bob': 'strawberry', 'Cara': 'mint chip', 'Alice': 'chocolate'}
Adding elements to a dictionary
>>> your_dict["Dora"] = "vanilla" >>> your_dict {'Bob': 'strawberry', 'Cara': 'mint chip', 'Dora': 'vanilla', 'Alice': 'chocolate'}
Accessing elements of a dictionary
>>> your_dict["Alice"] 'chocolate' >>> your_dict.get("Alice") 'chocolate'
>>> your_dict["Eve"] Traceback (most recent call last): File "<stdin>", line 1, in <module> KeyError: 'Eve' >>> "Eve" in her_dict False >>> "Alice" in her_dict True >>> your_dict.get("Eve") >>> person = your_dict.get("Eve") >>> print person None >>> print type(person) <type 'NoneType'> >>> your_dict.get("Alice") 'coconut'
Changing elements of a dictionary
>>> your_dict["Alice"] = "coconut" >>> your_dict {'Bob': 'strawberry', 'Cara': 'mint chip', 'Dora': 'vanilla', 'Alice': 'coconut'}
Types
>>> type(my_dict) <type 'dict'>