Liberty BASIC - Help Online

Week One Homework
 
Week 1, homework assignment 1
Liberty BASIC programming course
Copyright 1996 - 2005 Shoptalk Systems
All Rights Reserved
 
 
Refining SALESTAX.BAS
 
Our SALESTAX.BAS example program provides a good base for us to build on.
 
Here it is:
 
[start]
    print "Type a dollar and cent amount."
    input "(Press 'Enter' alone for help) ?"; amount
    if amount = 0 then [help]
    let tax = amount * 0.05
    print "Tax is: "; tax; ". Total is: "; tax + amount
 
    goto [start]
 
[help]
    cls
    print "SALESTAX.BAS Help"
    print
    print "This tax program determines how much tax is"
    print "due on an amount entered and also computes"
    print "the total amount.  The tax rate is 5%."
    print
    input "Press [Enter] to continue."; dummyVariable
    cls
    goto [start]
 
This program calculates a 5% sales tax.  It leaves any rounding up to the computer user.  We want to extend our SALESTAX program to round up properly and display our amount paid, tax, and total amounts in a way suitable for currency.
 
Rounding the tax up
 
Let's define how we will round up tax amounts for our example.  Where I live, I pay 5 cents for every whole dollar.  The remaining non-whole dollar amount is rounded up or down to the nearest 20 cent amount, and I pay 1 cent for each 20 cents of this rounded result.  Let's look at it step by step.
 
Given a purchase price of $5.45
 
(a) Strip away the cents from dollars and cents, that gives us $5.
(b) Pay 5 cents for each dollar, or 25 cents ($5 * 5 cents).
(c) Round the 45 cent portion of our purchase price to the nearest multiple of 20, that gives us 40 cents.
(d) Now we will pay 1 cent for every 20 cents in that 40 cent amount for a total of 2 cents (40 / 20 = 2).
(e) Add the 25 cents from (b) to the 2 cents from (d), and we have our total tax amount, 27 cents.
 
We can compute the value for step (b) using the INT() function.
 
Let's see how this works:
 
    'demonstration of INT() function
    input "Enter a non integer value (ie. 3.14) ?"; valueA
 
    let valueB = int(valueA)
    print "The integer part of "; valueA; " is "; valueB
 
To get the cent amount for the above calculations, we subtract the integer part from the entered amount, or valueA - valueB.  Let's see how this works:
 
    'getting the non-integer part of a value
    input "Enter a non integer value (ie. 3.14) ?"; valueA
    let valueB = int(valueA)
    print "The non-integer part of "; valueA; " is "; valueA - valueB
 
Now that we know how to get the cents out of our dollars and cents amount, we need to round it to the nearest 20 cent multiple.  Here is a simple way to round any number to a closest chosen multiple (this works for values greater than 0):
 
(a) Divide your chosen multiple by two.  We will use this as an adjustment value.  If we round 0.14 to the nearest multiple of 0.20, then our adjustment is 0.10 (0.20 / 2 = 0.10).
 
(b) Add the adjustment value to the number we want to round.  If our cent amount is 0.45 then our adjusted amount is 0.55.
 
(c) Now divide the adjusted amount by the multiple we want to round to.  This will give us 2.75 (0.55 / 0.20 = 2.75).
 
(d) Compute the integer portion of 2.75 and we have 2.  Take this value and multiply it by 0.20 (our chosen multiple), and we get 0.40 (2 * 0.20 = 0.40).
 
So we see that 0.45 rounded to the nearest multiple of 0.20 is 0.40.  Here is an expanded version of the program above that shows how to round a number in the way outline above:
 
    'getting the non-integer part of a value
    input "Enter a non integer value (ie. 3.14) ?"; valueA
    let valueB = int(valueA)
    valueC = valueA - valueB
    print "The non-integer part of "; valueA; " is "; valueC
 
    'now round valueC to the nearest multiple of 0.20
    adjustment = 0.20 / 2
 
    adjustedC = valueC + adjustment
    multiples = int(adjustedC / 0.20)
    roundedC = multiples * 0.20
    print valueC; " rounded to the closest 0.20 is "; roundedC
 
 
Displaying Monetary Values
 
When you buy something at the store, the cashier will usually give you a receipt for your purchase.  The product price, sales tax, and total amount paid are formatted something like this:
 
Product Price     4.95
Sales Tax         0.25
----------------------
 
Total             5.20
 
We want our SALESTAX program to produce information in a similar fashion.  Notice that the numbers are all aligned so that their decimal points are one under another.  This is called justification.  Liberty BASIC provides a function for justifying numeric values called USING().  Here is a quick little program that demonstrates the USING() function:
 
    'display 3 values justified
    valueA = 0.9
    valueB = 120
    print using("#####.##", valueA)
 
    print using("#####.##", valueB)
    print using("#####.##", valueA + valueB)
 
Running this program produces:
 
    0.90
  120.00
  120.90
 
Notice the string literal "#####.##".  The USING() function uses this as a template for formatting a value.
 
The 5 # characters before the period in "#####.##" tell USING() to place extra spaces in front of the number to ensure that there will be 5 places before the decimal point.
 
The 2 # characters after the decimal point in "#####.##" tell USING() to add zeros after the decimal point if there are none, or to drop all digits after the second digit following the decimal point.
 
Loss of Precision
 
In the realm of computers, real numbers are usually represented in what's called single precision floating point format.  This format is not an absolutely accurate way to represent the value of real numbers.  Sometimes in the process of executing BASIC code to arrive at a result, some loss of precision will become apparent.  This will usually manifest itself as a loss of the minutest amount of a value.  For example, a result that should be 1.5 becomes 1.499999.
 
For many applications, this is not a very significant problem.  In the realm of money though, it is a very real problem indeed.  If in the course of calculating our sales tax the customer owes $0.24 but the computed result is 0.2399999, it slips through unnoticed.  The USING() function would remove the 9's after 0.23, and we would never see it.
 
The solution is to add 0.001 to monetary values whenever the USING() function is employed.  This is important when using PRINT to display results, and also saving information to a disk file (this will be covered later in our course).  Here is how that BASIC code would look:
 
    'display 3 values justified
    valueA = 0.9
    valueB = 120
    print using("#####.##", valueA + 0.001)
    print using("#####.##", valueB + 0.001)
    print using("#####.##", valueA + valueB + 0.001)
 
 
Here's the assignment
 
Using the techniques we've just covered, extend the SALESTAX.BAS program listed at the start of this text and expand it so that...
 
  - It uses the method of tax calculation described above
 
  - It displays a result in sales receipt fashion like so:
 
    Product Price     4.95
    Sales Tax         0.25
    ----------------------
    Total             5.20
 
  - It corrects its calculations for loss of precision
 
 
Week One Homework Solution

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