Evaluation of Expression Program plan: Filename: “Constant.java” This program file is used to define a class “Constant”. In the code, Define a class “Constant”. Define the constructor “Constant()”. Set the value of “number”. Define the method “value()”. Return the value of “number”. Filename: “Variable.java” This program file is used to define a class “Variable”. In the code, Define a class “Variable”. Define a variable “letter”. Define the constructor “Variable ()”. If the “letter” is not equal to “x”, Throw an exception. Set the letter. Define the method “value()”. Return the value of “x”. Filename: “Expression.java” This program file is used to define an interface “Expression”. In the code, Define an interface “Expression”. Define the method “value()” with argument “x”. Filename: “Difference.java” This program file is used to define a class “Difference”. In the code, Define a class “Difference”. Define the class members “leftOp” and “rightOp”. Define the constructor “Difference ()”. Set the value of class members. Define the method “value()” to calculate the difference of two expression. Return the difference. Filename: “Product.java” This program file is used to define a class “Product”. In the code, Define a class “Product”. Define the class members “leftOp” and “rightOp”. Define the constructor “Product()”. Set the value of class members. Define the method “value()” to calculate the product of two expression. Return the product. Filename: “Quotient.java” This program file is used to define a class “Quotient”. In the code, Define a class “Quotient”. Define the class members “leftOp” and “rightOp”. Define the constructor “Quotient()”. Set the value of class members. Define the method “value()” to calculate the quotient of two expression. Return the quotient. Filename: “Sum.java” This program file is used to define a class “Sum”. In the code, Define a class “Sum”. Define the class members “leftOp” and “rightOp”. Define the constructor “Sum()”. Set the value of class members. Define the method “value()” to calculate the sum of two expression. Return the sum. Filename: “ExpressionTokenizer.java” This program file is used to define a class “ExpressionTokenizer”. In the code, Define a class “ExpressionTokenizer”. Define the class members “input”, “start” and “end”. Define the constructor “ExpressionTokenizer()”. Set the values of “input”, “start”, “end” and find the first token using “nextToken()”. Define the method “peekToken()”. If the “start” is greater than “input.length()”. Return “null”. Else, Return the substring. Define the method “nextToken()”. Call the method “peekToken()” to get the token. Assign the value of “end” to “start”. If the value of “start” is greater than or equal to length of the input, Return the value of “r”. If the character at “start” is a digit, Set “end” equal to “start+1”, Iterate a “while” loop, Increment the “end” by 1. Set the value of “end”. Return the value of “r”. Filename: “Evaluator.java” This program file is used to define a class “Evaluator”. In the code, Define a class “Evaluator”. Define the class members “tokenizer” which is an object of class “ExpressionTokenizer”. Define the constructor “Evaluator()”. Define “tokenizer”. Define the method “getExpressionValue()”. Get terms using “getTermValue()” to “value”. Define a Boolean value “done” and assign “false” to it. While “true”, Call “peekToken()” to get the token and assign to “next”. If the value of “next” is “+” or “-”. Get the next token using “nextToken()”. Get next term to “value2”. If the “next” is “+”, Calculate the sum of “value” and “value2” and assign to “value”. Else, Calculate the difference of “value” and “value2” and assign to “value”. Else, Set “done” equal to “true”. Return “value”. Define the method “getTermValue()”. Get factors using “getFactorValue()” to “value”. Define a Boolean value “done” and assign “false” to it. While “true”, Call “peekToken()” to get the token and assign to “next”. If the value of “next” is “” or “/”. Get the next token using “nextToken()”. Get next factor to “value2”. If the “next” is “”, Calculate the Product of “value” and “value2” and assign to “value”. Else, Calculate the Quotient of “value” and “value2” and assign to “value”. Else, Set “done” equal to “true”. Return “value”. Define the method “getFactorValue()”. Declare “value”. Call “peekToken()” to get the token and assign to “next”. If the value of “next” is “(”. Get the next token using “nextToken()”. Discard “(” using “nextToken()”. Get next expression to “value”. Discard “)” using “nextToken()”. Else, If the “next” is “x”, Get the variable “x” to “value”. Else, Get the next token to “value”. Return “value”. Filename: “ExpressionCalculator.java” This program file is used to define a class “ExpressionCalculator”. In the code, Define a class “ExpressionCalculator”. Define the method “main()”. Define the object “in” of “Scanner”. Prompt the user to enter the expression. Read the lines using “nextLine()”. Evaluate the expression “input”. Prompt the user to enter the value for “x”. Get the value of expression “input” to “value”. New line Print “value”.

Question

Want to see the full answer?

Answer 1

Question

Chapter 13, Problem 10PP

Program Plan Intro

Evaluation of Expression

Program plan:

Filename: “Constant.java”

This program file is used to define a class “Constant”. In the code,

Define a class “Constant”.

Define the constructor “Constant()”.

Set the value of “number”.

Define the method “value()”.

Return the value of “number”.

Filename: “Variable.java”

This program file is used to define a class “Variable”. In the code,

Define a class “Variable”.

Define a variable “letter”.

Define the constructor “Variable ()”.

If the “letter” is not equal to “x”,

Throw an exception.

Set the letter.

Define the method “value()”.

Return the value of “x”.

Filename: “Expression.java”

This program file is used to define an interface “Expression”. In the code,

Define an interface “Expression”.

Define the method “value()” with argument “x”.

Filename: “Difference.java”

This program file is used to define a class “Difference”. In the code,

Define a class “Difference”.

Define the class members “leftOp” and “rightOp”.

Define the constructor “Difference ()”.

Set the value of class members.

Define the method “value()” to calculate the difference of two expression.

Return the difference.

Filename: “Product.java”

This program file is used to define a class “Product”. In the code,

Define a class “Product”.

Define the class members “leftOp” and “rightOp”.

Define the constructor “Product()”.

Set the value of class members.

Define the method “value()” to calculate the product of two expression.

Return the product.

Filename: “Quotient.java”

This program file is used to define a class “Quotient”. In the code,

Define a class “Quotient”.

Define the class members “leftOp” and “rightOp”.

Define the constructor “Quotient()”.

Set the value of class members.

Define the method “value()” to calculate the quotient of two expression.

Return the quotient.

Filename: “Sum.java”

This program file is used to define a class “Sum”. In the code,

Define a class “Sum”.

Define the class members “leftOp” and “rightOp”.

Define the constructor “Sum()”.

Set the value of class members.

Define the method “value()” to calculate the sum of two expression.

Return the sum.

Filename: “ExpressionTokenizer.java”

This program file is used to define a class “ExpressionTokenizer”. In the code,

Define a class “ExpressionTokenizer”.

Define the class members “input”, “start” and “end”.

Define the constructor “ExpressionTokenizer()”.

Set the values of “input”, “start”, “end” and find the first token using “nextToken()”.

Define the method “peekToken()”.

If the “start” is greater than “input.length()”.

Return “null”.

Else,

Return the substring.

Define the method “nextToken()”.

Call the method “peekToken()” to get the token.

Assign the value of “end” to “start”.

If the value of “start” is greater than or equal to length of the input,

Return the value of “r”.

If the character at “start” is a digit,

Set “end” equal to “start+1”,

Iterate a “while” loop,

Increment the “end” by 1.

Set the value of “end”.

Return the value of “r”.

Filename: “Evaluator.java”

This program file is used to define a class “Evaluator”. In the code,

Define a class “Evaluator”.

Define the class members “tokenizer” which is an object of class “ExpressionTokenizer”.

Define the constructor “Evaluator()”.

Define “tokenizer”.

Define the method “getExpressionValue()”.

Get terms using “getTermValue()” to “value”.

Define a Boolean value “done” and assign “false” to it.

While “true”,

Call “peekToken()” to get the token and assign to “next”.

If the value of “next” is “+” or “-”.

Get the next token using “nextToken()”.

Get next term to “value2”.

If the “next” is “+”,

Calculate the sum of “value” and “value2” and assign to “value”.

Else,

Calculate the difference of “value” and “value2” and assign to “value”.

Else,

Set “done” equal to “true”.

Return “value”.

Define the method “getTermValue()”.

Get factors using “getFactorValue()” to “value”.

Define a Boolean value “done” and assign “false” to it.

While “true”,

Call “peekToken()” to get the token and assign to “next”.

If the value of “next” is “” or “/”.

Get the next token using “nextToken()”.

Get next factor to “value2”.

If the “next” is “”,

Calculate the Product of “value” and “value2” and assign to “value”.

Else,

Calculate the Quotient of “value” and “value2” and assign to “value”.

Else,

Set “done” equal to “true”.

Return “value”.

Define the method “getFactorValue()”.

Declare “value”.

Call “peekToken()” to get the token and assign to “next”.

If the value of “next” is “(”.

Get the next token using “nextToken()”.

Discard “(” using “nextToken()”.

Get next expression to “value”.

Discard “)” using “nextToken()”.

Else,

If the “next” is “x”,

Get the variable “x” to “value”.

Else,

Get the next token to “value”.

Return “value”.

Filename: “ExpressionCalculator.java”

This program file is used to define a class “ExpressionCalculator”. In the code,

Define a class “ExpressionCalculator”.

Define the method “main()”.

Define the object “in” of “Scanner”.

Prompt the user to enter the expression.

Read the lines using “nextLine()”.

Evaluate the expression “input”.

Prompt the user to enter the value for “x”.

Get the value of expression “input” to “value”.

New line

Print “value”.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Students have asked these similar questions

Scenario You work for a small company that exports artisan chocolate. Although you measure your products in kilograms, you often get orders in both pounds and ounces. You have decided that rather than have to look up conversions all the time, you could use Python code to take inputs to make conversions between the different units of measurement. You will write three blocks of code. The first will convert kilograms to pounds and ounces. The second will convert pounds to kilograms and ounces. The third will convert ounces to kilograms and pounds. The conversions are as follows: 1 kilogram = 35.274 ounces 1 kilogram = 2.20462 pounds 1 pound = 0.453592 kilograms 1 pound = 16 ounces 1 ounce = 0.0283 kilograms 1 ounce = 0.0625 pounds For the purposes of this activity the template for a function has been provided. You have not yet covered functions in the course, but they are a way of reusing code. Like a Python script, a function can have zero or more parameters. In the code window you…

make a screen capture showing the StegExpose results

Which of the following is not one of the recommended criteria for strategic objectives? Multiple Choice a) realistic b) appropriate c) sustainable d) measurable