DigitalInputter helps with simple logic computations.
Given a raw input, such as (!A)^(B*X), this will output the expression. For instance, given input [0,0,0], the output here would be 1.
This can work for any arbitrary length input with maximum 26 inputs (26 letters, one shouldn't need that much anyway). One can also print a table. For the input given above, the table output would be:
| A | B | X | OUT |
|---|---|---|---|
| 0 | 0 | 0 | 1 |
| 0 | 0 | 1 | 1 |
| 0 | 1 | 0 | 1 |
| 0 | 1 | 1 | 0 |
| 1 | 0 | 0 | 0 |
| 1 | 0 | 1 | 0 |
| 1 | 1 | 0 | 0 |
| 1 | 1 | 1 | 1 |
DigitalInputer offers four main method:
get_output(input_array): Returns the output for a given set of inputs.print_output_table(): Prints the table returned byget_output_table_print_ready()below.get_output_table_print_ready(): Returns a table showing all the different combinations of inputs and their outputs, which can be stored in a variable.get_table_output_dictionary(): Gets a dictionary showing all the different combinations of inputs and their outputs via keys as tuples of input and values as outputs of those inputs.
Here's a simple example for A OR B:
from DigitalInputer import DigitalInputer
A = DigitalInputer("A+B") # A OR B
print(A.get_output([0,0])) # 0, the first argument in the array is for A
print(A.get_output([0,1])) # 1
print(A.get_output([1,0])) # 1
print(A.get_output([1,1])) # 1The input of the array with the method get_output are alphabetical no matter what:
B = DigitalInputer("B+(A*B)") # B OR (A AND B)
print(A.get_output([0,0])) # 0, the first argument in the array is for A
print(A.get_output([0,1])) # 1
print(A.get_output([1,0])) # 0
print(A.get_output([1,1])) # 1You can also see tables with their values with the method print_output_table:
B = DigitalInputer("B+(A*B)") # B OR (A AND B)
B.print_output_table()
"""
prints the following:
A B | OUT
0 0 | 0
0 1 | 1
1 0 | 0
1 1 | 1
"""You can even get the table as a string with get_output_table_print_ready:
B = DigitalInputer("B+(A*B)") # B OR (A AND B)
string_table = B.get_output_table_print_ready()
print(string_table)
"""
prints the following:
A B | OUT
0 0 | 0
0 1 | 1
1 0 | 0
1 1 | 1
"""What if you want to save it in a different format? You can get a python dictionary with the method print_output_table:
B = DigitalInputer("B+(A*B)") # B OR (A AND B)
print(B.print_output_table()) # {(0, 1): 1, (1, 0): 0, (0, 0): 0, (1, 1): 1}This also supports equality checks (i.e. checking if two expressions are equivalent):
a = DigitalInputer("!(A + B)")
b = DigitalInputer("(!A)*(!B)")
print(a == b) # TrueThe class DigitalInputer takes in as input a Raw expression, as detailed below. That expression would be the entry point for this class.
ASA: stands for "as stated above". This is to make it apparent that we're referencing a variable in this naming convention.Value: Just an UPPERCASED alphabetical letter. Values have to be uppercased, otherwise it'd cause an error.Expression: Either a ValueASAor a parsed valued array, such as[33, 'A']or[42, 'A', 'B'](NOT A)and(A AND B)respectively.Raw: The single string that represents a boolean logic expression that is to be parsed into anExpressionASA. For example,A*(B*(!C)).Parsed Expression: AnExpressionthat is parsed as specified by theExpression.parsevariable in the classExpression. For instance,A*Bwould be parsed into[42, 'A', 'B'], which is theParsed Expressionfor thatRaw.Letter: A letter of the alphabetOperators: Boolean operators.*forAND,+forOR,!forNOT.
- (1) It has to be written in the form
LOLOLOLOLwithout spaces, whereLis either a Letter or another Raw enclosed in parentheses and whereOis an operator (see@below). For example,A*(B*(!C)). - The fact that there is no space in between letters in the expression
LOLOLOLOLis to say that a space will cause an Exception to occur. - (2) All of the
Ohave to be the same, or else it will raise a SyntaxError. Remember, it's recursive, so for anyL, all of theOhave to be the same still but they can be different than the mainO. - (3) Following from (2), in order to write a NOT expression, it needs to always be enclosed in Parenthesis unless it's the global thing to be NOTed. For instance,
!A(global) orA+(!(A+B))(not global). - (4) Some advanced operations require only 2
L's: those areIFFandIMPLIESoperations. - (
@) an exception to this rule is theNOToperator!as shown in the given example.
!meansNOT$meansNOR&meansNAND*meansAND+meansOR>meansIMPLIES^meansXOR|meansIFF