Variables and data types
Variables and Assignment
- possible names for variables
- don’t use built-in function names for variables, e.g. declaring sum won’t let you use sum(), same for print
- Python is case-sensitive
age = 100
firstName = 'Jason'
print(firstName, 'is', age, 'years old')
a = 1; b = 2 # can use ; to separate multiple commands in one line
a, b = 1, 2 # assign variables in a tuple notation; same as last line
a = b = 10 # assign a value to multiple variables at the same time
b = "now I am a string" # variables can change their type on the fly
- variables persist between cells
- variables must be defined before use
- variables can be used in calculations
age = age + 3 # another syntax: age += 3
print('age in three years:', age)
Quiz 1: predicting values
With simple variables in Python, assigning var2 = var1
will create a new object in memory var2
. Here we have two
distinct objects in memory: initial
and position
.
Note: With more complex objects, its name could be a pointer. E.g. when we study lists, we’ll see that
initial
andnew
below really point to the same list in memory:initial = [1,2,3] new = initial # create a pointer to the same object initial.append(4) # change the original list to [1, 2, 3, 4] print(new) # [1, 2, 3, 4] new = initial[:] # one way to create a new object in memory import copy new = copy.deepcopy(initial) # another way to create a new object in memory
Use square brackets to get a substring:
element = 'helium'
print(element[0]) # single character
print(element[0:3]) # a substring
Quiz 2: getting the second digit of a number (not a string!)
- python is case-sensitive
- use meaningful variable names
Data Types and Type Conversion
print(type(52))
print(type(52.))
print(type('52'))
print(name+' Smith') # can add strings
print(name*10) # can replicate strings by mutliplying by a number
print(len(name)) # strings have lengths
print(1+'a') # cannot add strings and numbers
print(str(1)+'a') # this works
print(1+int('2')) # this works