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Implement the simple methods
get_denthat will return the numerator and denominator of a fraction.
In many ways it would be better if all fractions were maintained in lowest terms right from the start. Modify the constructor for the
Fractionclass so that
GCDis used to reduce fractions immediately. Notice that this means the
__add__function no longer needs to reduce. Make the necessary modifications.
Implement the remaining simple arithmetic operators (
Implement the remaining relational operators (
Modify the constructor for the fraction class so that it checks to make sure that the numerator and denominator are both integers. If either is not an integer, the constructor should raise an exception.
In the definition of fractions we assumed that negative fractions have a negative numerator and a positive denominator. Using a negative denominator would cause some of the relational operators to give incorrect results. In general, this is an unnecessary constraint. Modify the constructor to allow the user to pass a negative denominator so that all of the operators continue to work properly.
__radd__method. How does it differ from
__add__? When is it used? Implement
Repeat the last question but this time consider the
__repr__method. How does it differ from
__str__? When is it used? Implement
Research other types of gates that exist (such as NAND, NOR, and XOR). Add them to the circuit hierarchy. How much additional coding did you need to do?
The most simple arithmetic circuit is known as the half adder. Research the simple half-adder circuit. Implement this circuit.
Now extend that circuit and implement an 8-bit full adder.
The circuit simulation shown in this chapter works in a backward direction. In other words, given a circuit, the output is produced by working back through the input values, which in turn cause other outputs to be queried. This continues until external input lines are found, at which point the user is asked for values. Modify the implementation so that the action is in the forward direction; upon receiving inputs the circuit produces an output.
Design a class to represent a playing card and another one to represent a deck of cards. Using these two classes, implement your favorite card game.
Find a Sudoku puzzle online or in the local newspaper. Write a program to solve the puzzle.