Solving problems with Python: Difference between revisions
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Notice that indentation (by any fixed number of spaces) is used to separate the functions within the statement, and that each branch is defined by a '':''. The end of a branch occurs when the indentation goes back to the previous level. Each decision is based on a logical ''boolean'' value such as (x > 0.), which is True when x is greater than 0. and False otherwise. Within the if processing, a '' | Notice that indentation (by any fixed number of spaces) is used to separate the functions within the statement, and that each branch is defined by a '':''. The end of a branch occurs when the indentation goes back to the previous level. Each decision is based on a logical ''boolean'' value such as (x > 0.), which is True when x is greater than 0. and False otherwise. Within the if processing, a ''pass'' is a way to do nothing, and an exit() leaves the entire program. | ||
A ''while'' statement tests whether its argument is true, and sets up a loop that continues as long as it is. Program | A ''while'' statement tests whether its argument is true, and sets up a loop that continues as long as it is. Program |
Revision as of 04:53, 14 February 2013
Now with many useful tools in hand, let us see how to make them work together to solve problems.
Flow control
The if statement is fundamental to making decisions within a program. It works simply
x=0.1 y=10. z=0. if x > 0.: y = 1./x elif x < -1.: pass elif x == 0: print 'Cannot divide by zero.' exit() else: y = 1./x z = y
Notice that indentation (by any fixed number of spaces) is used to separate the functions within the statement, and that each branch is defined by a :. The end of a branch occurs when the indentation goes back to the previous level. Each decision is based on a logical boolean value such as (x > 0.), which is True when x is greater than 0. and False otherwise. Within the if processing, a pass is a way to do nothing, and an exit() leaves the entire program.
A while statement tests whether its argument is true, and sets up a loop that continues as long as it is. Program
flag = True x = 0. while flag: x = x + 1. if x > 10.: flag = False print x
increases x until it is 11. and then prints the value.
Loops such as this may include a try block. This enables handling an exception, such as in this program to calculate x2 with input from keyboard.
while True: try: x = int(raw_input("Please enter a number: ")) break except ValueError: print "Oops! That was no valid number. Try again..." y=x**2 print y
Here a break exits the loop from the try block unless an exception is thrown. A while statement can also test for something that is changed in the loop.
Functions
Within a Python program you can define your own functions. Here's one to take an angle in degrees and reduce it an angle between 0 and 360.
def map360(angle):
if (angle < 0.0): n = int(angle / 360.0) - 1 return (angle - float(n) * 360.0) elif (angle >= 360.0): n = int(angle / 360.0) return (angle - float(n) * 360.0) else: return (angle)
Functions may have any number of objects as arguments, of any data type. Once defined, you may use a function anywhere in a program.
Iteration
Examples
For examples of Python illustrating flow control, functions, and iteration, see the examples section.
Assignments
For the assigned homework to use these ideas, see the assignments section.