309 lines
8.1 KiB
Python
309 lines
8.1 KiB
Python
#!/usr/bin/env python
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class Token:
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def __init__(self,data=None):
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self.data = data
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def __repr__(self):
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return "%s<%s>" % (self.__class__.__name__, repr(self.data))
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class AddOpToken(Token):
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pass
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class SubtractOpToken(Token):
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pass
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class MultiplyOpToken(Token):
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pass
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class DivideOpToken(Token):
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pass
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class NumToken(Token):
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pass
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class PLeftToken(Token):
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pass
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class PRightToken(Token):
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pass
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class EOLToken(Token):
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pass
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def lex(text):
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END = object()
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it = iter(text)
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c = next(it,END)
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while True:
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if c == END:
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break
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elif c in "0123456789":
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s = ""
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vtype = int
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while c != END and c in "0123456789.":
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s+=c
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if(c == "."):
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vtype = float
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c = next(it,END)
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yield NumToken(vtype(s))
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continue
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elif c == "+":
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yield AddOpToken()
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elif c == "-":
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yield SubtractOpToken()
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elif c == "*":
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yield MultiplyOpToken()
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elif c == "/":
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yield DivideOpToken()
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elif c == "(":
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yield PLeftToken()
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elif c == ")":
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yield PRightToken()
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elif c == " ":
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pass
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else:
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raise Exception("Unexpected character %s" % c)
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c = next(it,END)
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class OperatorNode:
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operator = "?"
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def __init__(self, left, right):
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self.left = left
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self.right = right
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self.vtype = None
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def calculate(self):
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raise Exception("Not implemented")
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def __repr__(self):
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return "%s < %s, %s >" % (self.__class__.__name__, repr(self.left), repr(self.right))
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def printAST(self,tab=0):
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self.left.printAST(tab+1)
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print("\t"*tab,self.operator)
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self.right.printAST(tab+1)
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def getType(self):
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if self.vtype is None:
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vlefttype = self.left.getType()
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vrighttype = self.left.getType()
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if vrighttype == float or vlefttype == float:
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self.vtype = float
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else:
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self.vtype = int
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return self.vtype
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class AdditionNode(OperatorNode):
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operator = "+"
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def calculate(self):
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return self.left.calculate() + self.right.calculate()
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class SubtractionNode(OperatorNode):
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operator = "-"
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def calculate(self):
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return self.left.calculate() - self.right.calculate()
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class MultiplicationNode(OperatorNode):
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operator = "*"
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def calculate(self):
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return self.left.calculate() * self.right.calculate()
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class DivisionNode(OperatorNode):
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operator = "/"
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def calculate(self):
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right = self.right.calculate()
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if right == 0:
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raise Exception("Division by Zero Error")
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return self.left.calculate() // right
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class NumNode:
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def __init__(self, value):
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self.value = value
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def calculate(self):
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return self.value
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def __repr__(self):
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return "NumNode < %d >" % self.value
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def printAST(self,tab=0):
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print("\t"*tab,self.value)
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def getType(self):
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if(type(self.value) == int):
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return int
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else:
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return float
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# 1. S -> E
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# 2. E -> E+T
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# 3. E -> E-T
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# 4. E -> T
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# 5. T -> T*F
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# 6. T -> T/F
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# 7. T -> F
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# 8. F -> ( E )
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# 9. F -> num
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def reduce_left_right(stack):
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stack.pop() #state
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right = stack.pop()
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stack.pop() #state
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stack.pop() #operator
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stack.pop() #state
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left = stack.pop()
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return left, right
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def parse(text):
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it = lex(text)
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T_NUM = NumToken
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T_ADD = AddOpToken
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T_SUB = SubtractOpToken
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T_MUL = MultiplyOpToken
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T_DIV = DivideOpToken
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T_LPAR = PLeftToken
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T_RPAR = PRightToken
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END = EOLToken
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NTS_E = object()
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NTS_T = object()
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NTS_F = object()
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a = object()
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r = object()
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s = object()
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table = [
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{ T_NUM: (s,4), T_LPAR: (s,3) },
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{ T_ADD: (s,8), T_SUB: (s,9), END: (a,0) },
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{ T_ADD: (r,4), T_SUB: (r,4), T_MUL: (s,12), T_DIV: (s,13), T_RPAR: (r,4), END: (r,4) },
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{ T_NUM: (s,4), T_LPAR: (s,3) },
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{ T_ADD: (r,9), T_SUB: (r,9), T_MUL: (r,9), T_DIV: (r,9), T_RPAR: (r,9), END: (r,9) },
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{ T_ADD: (r,7), T_SUB: (r,7), T_MUL: (r,7), T_DIV: (r,7), T_RPAR: (r,7), END: (r,7) },
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{ T_ADD: (s,8), T_SUB: (s,9), T_RPAR: (s,7) },
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{ T_ADD: (r,8), T_SUB: (r,8), T_MUL: (r,8), T_DIV: (r,8), T_RPAR: (r,8), END: (r,8) },
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{ T_NUM: (s,4), T_LPAR: (s,3) },
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{ T_NUM: (s,4), T_LPAR: (s,3) },
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{ T_ADD: (r,2), T_SUB: (r,2), T_MUL: (s,12), T_DIV: (s,13), T_RPAR: (r,2), END: (r,2) },
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{ T_ADD: (r,3), T_SUB: (r,3), T_MUL: (s,12), T_DIV: (s,13), T_RPAR: (r,3), END: (r,3) },
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{ T_NUM: (s,4), T_LPAR: (s,3) },
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{ T_NUM: (s,4), T_LPAR: (s,3) },
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{ T_ADD: (r,5), T_SUB: (r,5), T_MUL: (r,5), T_DIV: (r,5), T_RPAR: (r,5), END: (r,5) },
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{ T_ADD: (r,6), T_SUB: (r,6), T_MUL: (r,6), T_DIV: (r,6), T_RPAR: (r,6), END: (r,6) }
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]
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goto = [
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{ NTS_E: 1, NTS_T:2, NTS_F: 5 },
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{},
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{},
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{ NTS_E: 6, NTS_T:2, NTS_F: 5 },
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{},
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{},
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{},
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{},
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{ NTS_T:10, NTS_F: 5 },
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{ NTS_T:11, NTS_F: 5 },
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{},
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{},
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{ NTS_F: 14 },
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{ NTS_F: 15 },
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{},
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{}
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]
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stack = []
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stack.append(0)
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lookahead = next(it,END())
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while True:
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try:
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op, dat = table[stack[-1]][lookahead.__class__]
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except KeyError:
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raise Exception("Unexpected token: %s" % repr(lookahead))
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if op == s:
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stack.append( lookahead )
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stack.append( dat )
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lookahead = next(it,END())
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elif op == r:
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# 1. S -> E
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# 2. E -> E+T
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# 3. E -> E-T
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# 4. E -> T
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# 5. T -> T*F
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# 6. T -> T/F
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# 7. T -> F
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# 8. F -> ( E )
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# 9. F -> num
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if dat == 2:
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left, right = reduce_left_right(stack)
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pstate = stack[-1]
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nts = NTS_E
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stack.append( AdditionNode( left, right ) )
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elif dat == 3:
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left, right = reduce_left_right(stack)
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pstate = stack[-1]
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nts = NTS_E
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stack.append( SubtractionNode( left, right ) )
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elif dat == 4:
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stack.pop() #state
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v = stack.pop()
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pstate = stack[-1]
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nts = NTS_E
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stack.append( v )
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elif dat == 5:
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left, right = reduce_left_right(stack)
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pstate = stack[-1]
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nts = NTS_T
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stack.append( MultiplicationNode( left, right ) )
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elif dat == 6:
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left, right = reduce_left_right(stack)
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pstate = stack[-1]
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nts = NTS_T
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stack.append( DivisionNode( left, right ) )
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elif dat == 7:
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stack.pop() #state
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v = stack.pop()
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pstate = stack[-1]
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nts = NTS_T
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stack.append( v )
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elif dat == 8:
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stack.pop() #state
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stack.pop() #rpar
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stack.pop() #state
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v = stack.pop() # inner
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stack.pop() #state
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stack.pop() #lpar
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pstate = stack[-1]
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nts = NTS_F
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stack.append( v )
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elif dat == 9:
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stack.pop() #state
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tok = stack.pop()
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pstate = stack[-1]
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nts = NTS_F
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stack.append( NumNode( tok.data ) )
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else:
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raise Exception("Rule %d not found" % dat)
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try:
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stack.append( goto[pstate][nts] )
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except:
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raise Exception("WTF")
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elif op == a:
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break
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stack.pop()
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return stack.pop()
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if __name__ == '__main__':
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l = input("> ")
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print('"%s"' % l)
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print(list(lex(l)))
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ast = parse(l)
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ast.printAST()
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print("Result is of type: %s" % (repr(ast.getType())))
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print(l," = ",ast.calculate())
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