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User Controlled Input and Output

User Controlled Input and Output. Chapter 7. In this chapter we’ll learn how to…. Prompt the user to enter information into an M-file program Create output using the disp function Create formated output Use graphical techiniques to provide program input Use cell mode.

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User Controlled Input and Output

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  1. User Controlled Input and Output Chapter 7

  2. In this chapter we’ll learn how to… • Prompt the user to enter information into an M-file program • Create output using the disp function • Create formated output • Use graphical techiniques to provide program input • Use cell mode

  3. Section 7.1User Defined Input • To this point we have “hard coded” the values of variables into our M-file programs • The input function allows us to prompt the user to enter a value

  4. The input function is used in an M-file program to prompt the user to enter a value The prompt is displayed in the command window

  5. Input accepts a variety of data • Scalars • Matrices • enter inside square brackets • Character strings • enter inside single quotes • Or… specify string input with ‘s’

  6. Run this program twice – once with numeric input and once with character input Matrix input Character input

  7. Indicates that the input should be interpreted as a string

  8. Section 7.2Output Options • Enter the name of a variable • Use the disp function • Use the fprintf function

  9. disp The display (disp) function can be used to display the contents of a matrix without printing the matrix name

  10. The disp function can also be used to display a string

  11. Strings are really arrays of character information The result is a character array

  12. You can combine disp functions to create meaningful output from an M-file program, but the result of each disp function is on a separate line.

  13. Since the disp function only takes one input, you must combine arrays to make more complicated output • Use the num2str(x) function to change numeric information to a string disp(['The values in the x array are: ' num2str(x)])

  14. Although these characters look like numbers, they are interpreted by the computer as part of a character array – they no longer have any numeric meaning Notice that the ans matrix is listed as a character array

  15. Hint • If you want to include an apostrophe in a string, you need to enter the apostrophe twice. • If you don’t, Matlab thinks the apostrophe terminates the string. For example: disp('The moon''s gravity is 1/6th that of the earth')

  16. This Matlab program mimics a conversation, by using the input and disp functions. Watch the interactions as it runs in the next slide

  17. Click on the slide to play the movie – Use the down arrow to advance to the next slide

  18. Formatted Output • fprintf gives you more control over your output than the disp function • You can combine text and numbers • You can control how many digits to display, and their position

  19. fprintf Arguments • format-string • includes place holders and formating information for numbers • list of matrices

  20. fprintf • The fprintf command is more flexible than the disp command, and allows you to put both variables and text onto the same line

  21. 8 total spaces2 after the decimal pointfloating point format Place holder for your variable value Variable

  22. You can also use exponential format

  23. X is a matrix /n is a carriage return

  24. This example was created on the student edition of Matlab – Notice that the prompt is EDU Despite the way it looks, the computer always considers a matrix as one big list, working down one column at a time

  25. Hint • One of the most common mistakes new programmers make is to forget to include the f in the placeholder sequence. The fprintf function won’t work, but no error message is returned either.

  26. Hint • If you want to include a percentage sign in an fprintf statement, you need to enter the % twice. If you don’t, Matlab thinks the % is a placeholder for data. For example: fprintf('The interest rate is %5.2f %% \n', 5) results in: The interest rate is 5.00 %

  27. Here’s another example that uses the input, disp and fprintf functions • Write a program in an M-file that creates a table of degrees to radians • Prompt the user to enter the table starting value, an increment between values, and a final value.

  28. Input

  29. Graphical Input • You can enter ordered pairs of x and y values, by picking them off a graph • ginput

  30. ginput • [x,y] = ginput • Retrieves a set of ordered pairs from the graph everytime the enter key is struck • [x,y]=ginput(n) • Retrieves n ordered pairs

  31. Floating Crosshair When the ginput function is executed, a floating crosshair appears on the graph. Each time the enter key is struck, Matlab picks the corresponding points off the graph

  32. Section 7.4Cell Mode • Cell Mode is new to Matlab 7 • It’s a utility that allows the user to divide an M-file program into sections, called cells • Each cell can be executed one at at time

  33. To activate Cell Mode Select Cell -> Enable Cell, from the Editing Window menu bar

  34. Cells are created with cell dividers, %% Cell Tool bar Cell tool bar

  35. Evaluate Current Cell Evaluate Cell and Advance Evaluate the entire file Show Cell Titles Create Cell Dividers Divide and multiply value Increment and decrement value Save and publish to HTML

  36. html report created from the cell mode From the file menu, you can also chose to create reports in both Word and Powerpoint formats

  37. Section 7.5Reading and Writing Data from Files • Some common types of data files are • dat • txt • xls • jpg

  38. Import Wizard • Use the import wizard to determine the data type and to suggest ways to represent the data • Launch from the file menu • From the uiimport funtion • uiimport(‘filename.extension’)

  39. Command line approaches • The import wizard requires interaction with the user • Matlab includes a series of import functions that automatically import the data • You need to know what the data type is before you can use these

  40. Import functions • To import a .mat or .dat file, use the load command • Other functions can be found if you type • doc fileformats • For example, wavread can be used for wav files • xlsread can be used for Excel files

  41. Exporting Data • Use the save function for .mat or .dat files • Use specialized functions for other file types • For example • xlswrite for Excel files

  42. Use the file menu to save a file interactively, using a variety of file formats

  43. Summary • The input function allows the user to interact with the program by entering data at a prompt • The disp function displays information in the command window, and is especially useful for titles and labels

  44. Summary - fprintf • The fprintf function is more versatile than the disp function and allows you to combine text and numeric information in formated output

  45. Summary - ginput • The graphical input function allows the user to pick information off a graph, and store it as a series of order x-y pairs

  46. Summary – Cell Mode • Cell mode allows the programmer to group M-file code into sections, and to run each section individually • It includes options to publish M-files in html, Word or Powerpoint formats • The cell toolbar allows the user to interactively change parameter values each time the code is executed

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