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CSC 221: Introduction to Programming Fall 2012

Learn about Python's built-in functions, modules, and user-defined functions. Understand the advantages of encapsulating code into functions, parameterizing functions, and prompting vs. input methods for efficient coding. Explore the concept of functions that return values for streamlined programming. Get insights on Python documentation and helpful resources.

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CSC 221: Introduction to Programming Fall 2012

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  1. Functions & Modules standard modules: math, random Python documentation, help user-defined functions, computational abstraction parameters, local variables return statements CSC 221: Introduction to ProgrammingFall 2012

  2. Built-in functions • Python provides many built-in functions • mathematically, a function is a mapping from some number of inputs to an output • e.g., the abs function maps a single number to its absolute value • e.g., the max/min functions map two or more numbers to the maximum/minimum number • note that these functions do not just print the output, they return it • that is, a function call can appear in an expression, its value is the output value

  3. Modules & functions • in addition to these basic, built-in functions, the math module contains other useful functions as with turtle, you load a module using import can then call functions from the math module as math.FUNC(…) also have constants for π and e

  4. Why the prefix? • the round function does not have a prefix: round(3.2) • but the ceiling function does: math.ceil(3.2) • when a module is loaded using import, the module prefix must be used to clearly identify functions (since different modules might have functions with the same name) • no ambiguity for built-in functions or modules run directly in IDLE, so no prefix required

  5. random module • the random module contains functions for generating random values random() returns a float from range [0, 1) randint(X, Y) returns an int from range [X, Y] choice() returns a random character from a str

  6. Python documentation • you can get the latest Python details online • Language Reference gives an overview of the language • Library Reference documents the common library modules (e.g., math, random, turtle) • Global Module Index allows you to search for modules by name

  7. Python help • modules are also self-documenting • call the help function to see info on a function • can also call help on the entire module

  8. User-defined functions • in addition to built-in and standard module functions, you can organize your code into functions • recall the population growth code as is, you have to rerun the module each time you want to calculate a new growth estimate better solution – package the code into a function, then can call that function repeatedly

  9. Simple functions • in its simplest form, a Python function is a sequence of statements grouped together into a block • general form: def FUNC_NAME(): SEQUENCE_OF_STATEMENTS the statements that make up the function block must be indented (consistently) you can have blank lines inside the function for readability consecutive blank lines will end the function

  10. Advantages of functions • functions encapsulate a series of statements under a name • once defined, a function can be called over and over without rerunning the module a python function is analogous to a Scratch script, which combines a sequence of blocks that can be executed as a unit 10

  11. Exercise: FORCAST function • convert your FORCAST reading level code into a function • encapsulate the code under a function name, e.g., readingLevel • test your function by running the module and then doing multiple reading level calculations simple functions like these are units of computational abstraction • the function encapsulates a sequence of computations into a single unit • once you know the name you no longer need to remember how it works (i.e., you abstract away the details and focus on the overall effect) • but they don't resemble math functions very closely • no inputs & no explicit output

  12. Functions with inputs • to generalize a function so that it can take inputs, must add parameters • a parameter is a variable that appears in the heading of a function definition (inside the parentheses) • when the function is called, you must provide an input value for each parameter • these input values are automatically assigned to the parameter variables

  13. Exercise: parameterizing FORCAST • modify your readingLevelfunction to have two parameters def readingLevel(singleWords, totalWords) • note that the input values match up with parameters in the order provided >>> readingLevel(104, 380) prompts vs. inputs? • if your code requires many different input values, then having a function that prompts for each value is often simpler (prompts remind the user of what to enter) • if there are few inputs, then often simpler & quicker to provide them as inputs • avoids the prompts and allows the user to enter the values directly • allows you to determine the inputs some other way (e.g., another function to calculate the input values)

  14. Functions that return values • consider functions that convert distances in Metric & Imperial • a return statement specifies the output value for a function • the reverse conversion could be similarly defined using the 0.3048 factor • or, could make use of the existing feetToMetersfunction

  15. Print vs. return • when the results are complex, printing is more readable • the population results involve two numbers and description text • much easier to understand than however, a function that prints its results is limited • the user can view the displayed results, but it cannot be used by other code • if returned, the result can be used in other computations • if the result of a computation is potentially useful for some other computation, then return that result

  16. Exercise: years vs. seconds • define a function that converts a number of years into the corresponding number of seconds • similarly, define a function that does the opposite conversion

  17. Function doc strings • it is considered good programming practice to put a multiline comment at the beginning of every function definition • it should briefly document the purpose of the function • in addition to making it easier to read the code in the editor, the doc string can be viewed in the interpreter shell using the built-in help function

  18. Simulating dice rolls • Consider the following function for simulating the roll of a die • what is good about this code? what is bad? • suppose we wanted to generalize the function so that it works for an N-sided die • suppose we wanted to get the sum of two die rolls

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