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basic-calculator-iv.py
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# Time: +: O(d * t), t is the number of terms,
# d is the average degree of terms
# -: O(d * t)
# *: O(d * t^2)
# eval: O(d * t)
# to_list: O(d * tlogt)
# Space: O(e + d * t), e is the number of evalvars
import collections
import itertools
import operator
def clear(result):
to_remove = [k for k, v in result.iteritems() if v == 0]
for k in to_remove:
result.pop(k)
class Poly(collections.Counter):
def __init__(self, expr=None):
if expr is None:
return
if expr.isdigit():
if int(expr):
self.update({(): int(expr)})
else:
self[(expr,)] += 1
def __add__(self, other):
result = Poly()
result.update(self)
result.update(other)
clear(result)
return result
def __sub__(self, other):
result = Poly()
result.update(self)
result.update({k: -v for k, v in other.iteritems()})
clear(result)
return result
def __mul__(self, other):
def merge(k1, k2):
result = []
i, j = 0, 0
while i != len(k1) or j != len(k2):
if j == len(k2) or (i != len(k1) and k1[i] < k2[j]):
result.append(k1[i])
i += 1
else:
result.append(k2[j])
j += 1
return result
result = Poly()
for k1, v1 in self.iteritems():
for k2, v2 in other.iteritems():
result.update({tuple(merge(k1, k2)): v1*v2})
clear(result)
return result
def eval(self, lookup):
result = Poly()
for polies, c in self.iteritems():
key = []
for var in polies:
if var in lookup:
c *= lookup[var]
else:
key.append(var)
result[tuple(key)] += c
clear(result)
return result
def to_list(self):
return ["*".join((str(v),) + k)
for k, v in sorted(self.iteritems(),
key=lambda x: (-len(x[0]), x[0]))]
class Solution(object):
def basicCalculatorIV(self, expression, evalvars, evalints):
"""
:type expression: str
:type evalvars: List[str]
:type evalints: List[int]
:rtype: List[str]
"""
ops = {'+':operator.add, '-':operator.sub, '*':operator.mul}
def compute(operands, operators):
right, left = operands.pop(), operands.pop()
operands.append(ops[operators.pop()](left, right))
def parse(s):
precedence = {'+':0, '-':0, '*':1}
operands, operators, operand = [], [], []
for i in xrange(len(s)):
if s[i].isalnum():
operand.append(s[i])
if i == len(s)-1 or not s[i+1].isalnum():
operands.append(Poly("".join(operand)))
operand = []
elif s[i] == '(':
operators.append(s[i])
elif s[i] == ')':
while operators[-1] != '(':
compute(operands, operators)
operators.pop()
elif s[i] in precedence:
while operators and operators[-1] in precedence and \
precedence[operators[-1]] >= precedence[s[i]]:
compute(operands, operators)
operators.append(s[i])
while operators:
compute(operands, operators)
return operands[-1]
lookup = dict(itertools.izip(evalvars, evalints))
return parse(expression).eval(lookup).to_list()
class Solution2(object):
def basicCalculatorIV(self, expression, evalvars, evalints):
"""
:type expression: str
:type evalvars: List[str]
:type evalints: List[int]
:rtype: List[str]
"""
def compute(operands, operators):
left, right = operands.pop(), operands.pop()
op = operators.pop()
if op == '+':
operands.append(left + right)
elif op == '-':
operands.append(left - right)
elif op == '*':
operands.append(left * right)
def parse(s):
if not s:
return Poly()
operands, operators = [], []
operand = ""
for i in reversed(xrange(len(s))):
if s[i].isalnum():
operand += s[i]
if i == 0 or not s[i-1].isalnum():
operands.append(Poly(operand[::-1]))
operand = ""
elif s[i] == ')' or s[i] == '*':
operators.append(s[i])
elif s[i] == '+' or s[i] == '-':
while operators and operators[-1] == '*':
compute(operands, operators)
operators.append(s[i])
elif s[i] == '(':
while operators[-1] != ')':
compute(operands, operators)
operators.pop()
while operators:
compute(operands, operators)
return operands[-1]
lookup = dict(itertools.izip(evalvars, evalints))
return parse(expression).eval(lookup).to_list()