Last active
April 8, 2021 06:35
-
-
Save eliascotto/c03a170ae2e208d4a75f7f371a48be33 to your computer and use it in GitHub Desktop.
Simple math parser for expressions evaluation in Python 3. Also includes a command line interface for use as a calculator.
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
import readline | |
from MathExpression import * | |
def command_line(): | |
import sys | |
mathExp = MathExp() | |
while True: | |
try: | |
line = input('>>> ') | |
if line.strip() == 'quit': | |
return | |
result = mathExp.eval(line) | |
if result: | |
print(result) | |
except EOFError: | |
return | |
except KeyboardInterrupt: | |
sys.stdout.write('\nUse quit to exit!\n') | |
continue | |
except Exception as err: | |
sys.stderr.write(err.args[0] + '\n') | |
if __name__ == '__main__': | |
command_line() |
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
''' | |
-> CONTEXT-FREE GRAMMAR <- | |
expr --> expr PLUS term | expr MINUS term | term | |
term --> term TIMES factor | term DIVIDE factor | factor | |
factor --> exponent POW factor | exponent | |
exponent --> MINUS exponent | final | |
final --> DIGIT | ( expr ) | |
''' | |
class Expression: | |
def __init__(self): | |
raise NotImplementedError() | |
def Evaluate(self): | |
raise NotImplementedError() | |
def __repr__(self): | |
klass = self.__class__.__name__ | |
private = '_{0}__'.format(klass) | |
args = [] | |
for name in self.__dict__: | |
if name.startswith(private): | |
value = self.__dict__[name] | |
name = name[len(private):] | |
args.append('{0}={1}'.format(name, repr(value))) | |
return '{0}({1})'.format(klass, ', '.join(args)) | |
class Constant(Expression): | |
def __init__(self, value): | |
self.__value = value | |
def Evaluate(self): | |
return self.__value | |
class Operation(Expression): | |
def __init__(self, operation, left, right): | |
self.__op = operation | |
self.__left = left | |
self.__right = right | |
def Evaluate(self): | |
x = self.__left.Evaluate() | |
y = self.__right.Evaluate() | |
if self.__op == '+': | |
return x + y | |
if self.__op == '-': | |
return x - y | |
if self.__op == '*': | |
return x * y | |
if self.__op == '/': | |
return x / y | |
if self.__op == '^': | |
return pow(x, y) | |
raise Exception('Unknown operator: ' + self.__op) | |
class Parser: | |
def parse(self, tokens): | |
self.tokens = tokens | |
self.nextToken() | |
return self.expr() | |
def nextToken(self): | |
if len(self.tokens): | |
# remove first element from token list\ | |
self.current = self.tokens.pop(0) | |
else: | |
self.current = None | |
def expr(self): | |
result = self.term() | |
while self.current in ('+', '-'): | |
if self.current == '+': | |
self.nextToken() | |
a = result | |
b = self.term() | |
result = Operation('+', a, b) | |
if self.current == '-': | |
self.nextToken() | |
minuend = result | |
subtrahend = self.term() | |
result = Operation('-', minuend, subtrahend) | |
return result | |
def term(self): | |
result = self.factor() | |
while self.current in ('*', '/'): | |
if self.current == '*': | |
self.nextToken() | |
factor = result | |
multiplier = self.term() | |
result = Operation('*', factor, multiplier) | |
if self.current == '/': | |
self.nextToken() | |
dividend = result | |
divisor = self.term() | |
result = Operation('/', dividend, divisor) | |
return result | |
def factor(self): | |
result = self.exponent() | |
while self.current == '^': | |
self.nextToken() | |
base = result | |
exp = self.factor() | |
result = Operation('^', base, exp) | |
return result | |
def exponent(self): | |
if self.current == '-': | |
self.nextToken() | |
positive = self.final() | |
result = Constant(-positive.Evaluate()) | |
else: | |
result = self.final() | |
return result | |
def final(self): | |
result = None | |
if type(self.current) is float: | |
result = Constant(self.current) | |
self.nextToken() | |
elif self.current == '(': | |
self.nextToken() | |
result = self.expr() | |
if self.current != ')': | |
raise Exception('Expected )') | |
self.nextToken() | |
else: | |
raise Exception('Expected number or (expr)') | |
return result | |
class MathExp: | |
SYMBOLS = ['+', '-', '*', '/', '^', '(', ')'] | |
def __init__(self): | |
self.parser = Parser() | |
def eval(self, string): | |
chars = list(string) | |
tokens = self.tokenizer(chars) | |
if not tokens: | |
# not parse if empty | |
return None | |
tree = self.parser.parse(tokens) | |
# print(tree) # uncomment to see parser results | |
return tree.Evaluate() | |
def tokenizer(self, chars): | |
tokens = [] | |
pos = 0 | |
while pos < len(chars): | |
c = chars[pos] | |
if c == ' ': | |
# do nothing... | |
pass | |
elif c in self.SYMBOLS: | |
tokens.append(c) | |
elif c.isdigit(): | |
num = float(c); | |
# read the entire number before append | |
while pos + 1 < len(chars) and chars[pos + 1].isdigit(): | |
pos += 1 | |
num = num * 10 + float(chars[pos]) | |
tokens.append(num) | |
else: | |
raise Exception('Unknown symbol at position: ' + str(pos)) | |
pos += 1 | |
return tokens |
from MathExpression import *
mathExp = MathExp()
print(mathExp.eval('x+y'))
Sign up for free
to join this conversation on GitHub.
Already have an account?
Sign in to comment
Can someone Help Me how i use it?