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The evolution of a Python Programmer
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#Newbie programmer | |
def factorial(x): | |
if x == 0: | |
return 1 | |
else: | |
return x * factorial(x - 1) | |
print factorial(6) | |
#First year programmer, studied Pascal | |
def factorial(x): | |
result = 1 | |
i = 2 | |
while i <= x: | |
result = result * i | |
i = i + 1 | |
return result | |
print factorial(6) | |
#First year programmer, studied C | |
def fact(x): #{ | |
result = i = 1; | |
while (i <= x): #{ | |
result *= i; | |
i += 1; | |
#} | |
return result; | |
#} | |
print(fact(6)) | |
#First year programmer, SICP | |
@tailcall | |
def fact(x, acc=1): | |
if (x > 1): return (fact((x - 1), (acc * x))) | |
else: return acc | |
print(fact(6)) | |
#First year programmer, Python | |
def Factorial(x): | |
res = 1 | |
for i in xrange(2, x + 1): | |
res *= i | |
return res | |
print Factorial(6) | |
#Lazy Python programmer | |
def fact(x): | |
return x > 1 and x * fact(x - 1) or 1 | |
print fact(6) | |
#Lazier Python programmer | |
f = lambda x: x and x * f(x - 1) or 1 | |
print f(6) | |
#Python expert programmer | |
import operator as op | |
import functional as f | |
fact = lambda x: f.foldl(op.mul, 1, xrange(2, x + 1)) | |
print fact(6) | |
#Python hacker | |
import sys | |
@tailcall | |
def fact(x, acc=1): | |
if x: return fact(x.__sub__(1), acc.__mul__(x)) | |
return acc | |
sys.stdout.write(str(fact(6)) + '\n') | |
#EXPERT PROGRAMMER | |
import c_math | |
fact = c_math.fact | |
print fact(6) | |
#ENGLISH EXPERT PROGRAMMER | |
import c_maths | |
fact = c_maths.fact | |
print fact(6) | |
#Web designer | |
def factorial(x): | |
#------------------------------------------------- | |
#--- Code snippet from The Math Vault --- | |
#--- Calculate factorial (C) Arthur Smith 1999 --- | |
#------------------------------------------------- | |
result = str(1) | |
i = 1 #Thanks Adam | |
while i <= x: | |
#result = result * i #It's faster to use *= | |
#result = str(result * result + i) | |
#result = int(result *= i) #?????? | |
result str(int(result) * i) | |
#result = int(str(result) * i) | |
i = i + 1 | |
return result | |
print factorial(6) | |
#Unix programmer | |
import os | |
def fact(x): | |
os.system('factorial ' + str(x)) | |
fact(6) | |
#Windows programmer | |
NULL = None | |
def CalculateAndPrintFactorialEx(dwNumber, | |
hOutputDevice, | |
lpLparam, | |
lpWparam, | |
lpsscSecurity, | |
*dwReserved): | |
if lpsscSecurity != NULL: | |
return NULL #Not implemented | |
dwResult = dwCounter = 1 | |
while dwCounter <= dwNumber: | |
dwResult *= dwCounter | |
dwCounter += 1 | |
hOutputDevice.write(str(dwResult)) | |
hOutputDevice.write('\n') | |
return 1 | |
import sys | |
CalculateAndPrintFactorialEx(6, sys.stdout, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL) | |
#Enterprise programmer | |
def new(cls, *args, **kwargs): | |
return cls(*args, **kwargs) | |
class Number(object): | |
pass | |
class IntegralNumber(int, Number): | |
def toInt(self): | |
return new (int, self) | |
class InternalBase(object): | |
def __init__(self, base): | |
self.base = base.toInt() | |
def getBase(self): | |
return new (IntegralNumber, self.base) | |
class MathematicsSystem(object): | |
def __init__(self, ibase): | |
Abstract | |
@classmethod | |
def getInstance(cls, ibase): | |
try: | |
cls.__instance | |
except AttributeError: | |
cls.__instance = new (cls, ibase) | |
return cls.__instance | |
class StandardMathematicsSystem(MathematicsSystem): | |
def __init__(self, ibase): | |
if ibase.getBase() != new (IntegralNumber, 2): | |
raise NotImplementedError | |
self.base = ibase.getBase() | |
def calculateFactorial(self, target): | |
result = new (IntegralNumber, 1) | |
i = new (IntegralNumber, 2) | |
while i <= target: | |
result = result * i | |
i = i + new (IntegralNumber, 1) | |
return result | |
print StandardMathematicsSystem.getInstance(new (InternalBase, new (IntegralNumber, 2))).calculateFactorial(new (IntegralNumber, 6)) |
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This is awesome! Best part is
#ENGLISH EXPERT PROGRAMMER
😄