CS 251: Project #2

Data Management

The purpose of this week's lab is to create a Data class that allows you to read and write CSV files. Then you should be able to query the Data object for information.


Tasks

  1. Update your Data class to support the numeric form of the data. This will involve adding new code to your read method, new fields to your class, and new accessors.
    • The new code will need to convert the string data in the numeric column to numbers. Store them in a numpy matrix.
    • Here are the suggested fields
      • self.matrix_data = np.matrix([]) # matrix of numeric data
      • self.header2matrix = {} # dictionary mapping header string to index of column in matrix data
    • Here are the accessors:
      • get_headers (list of headers of columns with numeric data)
      • get_num_columns: returns the number of columns of numeric data
      • get_row: take a row index and returns a row of numeric data
      • get_value: takes a row index (int) and column header (string) and returns the data in the numeric matrix.
      • get_data: At a minimum, this should take a list of columns headers and return a matrix with the data for all rows but just the specified columns. It is optional to also allow the caller to specify a specific set of rows.
    • Test your new methods (you get to write this code.).
  2. Create an analysis.py file. All analysis functions will take lists of strings (column headers) to specify what (numeric) data to analyze. Inside your analysis file, create the following three functions.
    • data_range - Takes in a list of column headers and the Data object and returns a list of 2-element lists with the minimum and maximum values for each column. The function is required to work only on numeric data types.
    • mean - Takes in a list of column headers and the Data object and returns a list of the mean values for each column. Use the built-in numpy functions to execute this calculation.
    • stdev - Takes in a list of column headers and the Data object and returns a list of the standard deviation for each specified column. Use the built-in numpy functions to execute this calculation.
    • normalize_columns_separately - Takes in a list of column headers and the Data object and returns a matrix with each column normalized so its minimum value is mapped to zero and its maximum value is mapped to 1.
    • normalize_columns_together - Takes in a list of column headers and the Data object and returns a matrix with each entry normalized so that the minimum value (of all the data in this set of columns) is mapped to zero and its maximum value is mapped to 1.

    Test your new methods. Describe your testing in your report and include your test file in the code you hand in. Note, this could be test code you build into the Data.py file. But the test code should not run unless you execute the Data.py file directly.

  3. Find your own data set. Put it into a .csv file and convince me that your Data class can read it in properly. One thing you could do is open the .csv file with Excel, compute the mean and standard deviation using Excel, and then verify that the mean and standard deviations that you calculate with your analysis functions are the same.

Extensions


Writeup


Handin

Once you have written up your assignment, give the page the label:

cs251s15project2

Put your code in your private subdirectory in the COMP/CS251 folder on the Courses server.