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Functions

Functions. Institute for Personal Robots in Education (IPRE) ‏. Functions. input. A function is a piece of code you can use over and over again Treat it like a black box You pass it (optional) values, it does some work, and it (optionally) returns values

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Functions

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  1. Functions Institute for Personal Robots in Education (IPRE)‏

  2. Functions input • A function is a piece of code you can use over and over again • Treat it like a black box • You pass it (optional) values, it does some work, and it (optionally) returns values • You “call it”,”invoke it”, or “use it” by using its name and parentheses • The things you pass it go inside the parentheses • output = function( input )‏ function output

  3. Using Simple Functions forward(1,1)‏ beep(1, 440)‏ • Functions that interact with the robot • forward (speed,duration)‏ • beep(time, frequency)‏ • Pass in arguments • Execute in sequential order • flow of execution

  4. Writing Simple Functions • Defining functions • Creates function • Does not execute/run them • Indenting indicates a “block” of code • Call functions from top-level or other functions def nudge(): print “going forward” forward(1,1)‏ print “now stopped” nudge()‏ Indent No Indention “Top Level”

  5. Format of a function definition def function-name(): statement statement … statement

  6. Writing Functions with Parameters def nudge(speed): print “Going forward with speed”, speed forward(speed,1)‏ print “stopped” nudge(0.2)‏ nudge(0.9)‏ nudge(1)‏

  7. Parameters are Variables • When you pass values into functions as parameters, they get assigned to the variable names declared in the definition line of the function. • For example, when you call nudge(0.2)The speed variable is assigned (points to) the value 0.2 • When the code in the function refers to the speed variable, it evaluates to the number 0.2 • So, when you call nudge(0.2) and the nudge function calls forward(speed, 1), it's the same as if it called forward(0.2,1)

  8. Octaves of A def beepA(length,octave): beep(length, 440*(2**octave))‏ beepA(1,0) # A4 beepA(2,1) # A5 beepA(3,2) # A6 • A4 : 440 Hz • A5: 880 Hz • A6: 1760 Hz • A7: 3520 Hz

  9. Format of a Function Definition with Parameters def function-name(list-of-params): statement statement … statement function-name(list-of-params)‏

  10. Using Functions that Return Values name = getName()‏ print “Hello, your robot is”, name print “Robot battery voltage”, getBattery()‏ p = takePicture()‏ show(p)‏

  11. Composing Functions • You can use the output (return value) of one function as the input (parameter) to another function. show( takePicture() ) • In this example, the takePicture() function executes first (things inside parenthesis execute before things outside parenthesis)‏ • The takePicture() function returns a picture, which is then given to the show() function as a parameter.

  12. Writing Functions that Return Values def area(radius): return 3.14 * radius**2 def circumference(diameter): return 3.14 * diameter print “Area of a 3 ft circle”, area(3)‏ print “Circumference”, circumference(2*3)‏

  13. Return Statements • The return statement is used to return a value from a function • The return statement also affects the flow of execution • Whenever the flow of execution hits a return statement it jumps back to the place where the function was called • All functions have an implicit return statement at the end of the block of indented code, even if you do not specifically place one at the end of your function

  14. Functions with Local Variables def area(radius): a = 3.14 * radius**2 returna def circumference(diameter): c = 3.14 * diameter returnc print “Area of a 3 ft circle”, area(3)‏ print “Circumference”, circumference(2*3)‏

  15. Variables in a Function are Local • Variables in a function are private • Including the parameters • Each function has its own variables • Even when the names are the same • Allows you to write functions independently without worrying about using the same name

  16. Different Variables - Same Name def area(radius): a = 3.14 * radius**2 returna def circumference(radius): a = 3.14 * 2 * radius returna a = 20 print “Area of a 3 ft circle”, area(3)‏ print “Circumference”, circumference(3)‏ print a

  17. Writing Functions with Return Values def function-name(list-of-params): statement statement … statement return value output = function-name(list-of-params)‏

  18. Passing variables to a functions • If you pass a variable to a function, the function gets the value that the variable is pointing at userInput = raw_input(“Enter a Name”)‏ setName(userInput)‏ print “The Robots new Name is: “, userInput

  19. Functions in general # description of this function # what it expects as input # what is provides as output def function (p0, p2, …, pn): statement … statement return value z = function(a0, a2, …, an)‏

  20. Where’s the Error? def area: a = 3.14 * radius**2 returna print “Area of a 3 ft circle”, area(3)‏

  21. Where’s the Error? def area( radius ): a = 3.14 * radius**2 returna print “Area of a 3 ft circle”, area(3)‏

  22. Where’s the Error? def area(radius): a = 3.14 * radius**2 returna print “Area of a 3 ft circle”, area()‏

  23. Where’s the Error? def area(radius): a = 3.14 * radius**2 print “Area of a 3 ft circle”, area(3)‏

  24. Where’s the Error? def area(radius): a = 3.14 * radius**2 returna area(3)‏ print “Area of a 3 ft circle”, a

  25. What’s the result? def area(radius): a = 3.14 * radius**2 returna v = area(3)‏ a = 16 print “Area of a 3 ft circle”, v print “value of a”, a

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