# Wrong Answer to SPOJ PRIME1 in Python

I've tried to compare my result to Wolfram Alpha's result by counting primes found.

It seems works well, without error.

But when I submit this solution to SPOJ, it shows the error message "wrong answer".

I also tried to change the final print's end= to '' (blank string), but still got "wrong answer".

Not sure if is there something wrong with my sieve algorithm, or output error.

Here is my PRIME1 source code, hope someone can point out my fault. Thanks a lot.

And hope someone can teach me how to write a test to programs like this, I'm still learning, don't know how to do automated tests to programs, but want to learn.

``````    def getPrimeInRange(minNum, maxNum):
#just a variation with skipping step of the  Sieve of E's
processingRange = list(range(minNum, maxNum+1))
#prefix, due to 1 is not a prime
if minNum == 1:
processingRange[0] = 0
sqrtOfMaxNum = int(maxNum ** 0.5) + 1
primesUnderSqrt = list(range(sqrtOfMaxNum))
#prefix, due to 1 is not a prime
primesUnderSqrt[1] = 0

#my strategy is flip all numbers that is not a prime to zero, which equals to False.
#for Sieve of E's, all the primes under sqrt of max num are the only needed numbers to sieve primes out.
#so here is a smaller Sieve of E's for numbers under sqrt
for n in primesUnderSqrt:
if n: #which equals to "if n != 0"
nowIndex = n + n
while True:
try:
primesUnderSqrt[nowIndex] = 0
nowIndex += n
except IndexError:
break

#full aspect sieve
for n in primesUnderSqrt:
if n:
#for easier flip processing, I need the offset number for the flipping.
nMultipleMostCloseToMin = n * (minNum // n)
if nMultipleMostCloseToMin == minNum:
nowIndex = 0
elif sqrtOfMaxNum <= minNum:
nowIndex = nMultipleMostCloseToMin + n - minNum
elif sqrtOfMaxNum > minNum:
nowIndex = nMultipleMostCloseToMin + n - minNum + n

#happy flippin'
while True:
try:
processingRange[nowIndex] = 0
nowIndex += n
except IndexError:
break

return processingRange

def main():
todoTimes = int(input())
todoNums = list(range(todoTimes))
stringOutput = ''
for i in range(todoTimes):
todoNums[i] = input().split()
todoNums[i][0] = int(todoNums[i][0])
todoNums[i][1] = int(todoNums[i][1])
for [minNum, maxNum] in todoNums:
#countedNum = 0 #for algo debugging
for n in getPrimeInRange(minNum, maxNum):
if n:
stringOutput += str(n)
#countedNum += 1 #for algo debugging
stringOutput += '\n'
stringOutput += '\n'
#stringOutput += str(countedNum) #for algo debugging
stringOutput = stringOutput.rstrip('\n')
print(stringOutput)

ifMainSucceed = main()
``````
-

``````if nMultipleMostCloseToMin == minNum:
nowIndex = 0
elif sqrtOfMaxNum <= minNum:
nowIndex = nMultipleMostCloseToMin + n - minNum
elif sqrtOfMaxNum > minNum:
nowIndex = nMultipleMostCloseToMin + n - minNum + n
``````

is wrong. Your `elif`-conditions don't make much sense here. If `n` is not a divisor of `minNum`, the smallest multiple of `n` not less than `minNum` is `nMultipleMostCloseToMin + n`, regardless of whether `sqrtOfMaxNum` is larger than `minNum` or not. The condition you intended here was `n <= minNum`, to avoid crossing off the prime itself.

-
Thanks! No wonder I feel something awkward in these conditions, my brain was twisted up, lol – Shem Mar 5 '12 at 16:33
Excuse me, after changing the elif condition to n <= minNum, and the second elif to else, still got wrong answer.... – Shem Mar 5 '12 at 17:07
the primes generated looks like as before I changed the code, I have no idea where the wrong is, SPOJ doesn't provide the wrong answer for me to check.... – Shem Mar 5 '12 at 17:10
looks like it's the output format problem, I found some coders on SPOJ encountered something same like me. – Shem Mar 5 '12 at 17:17
The list changes, compare e.g. `getPrimeInRange(8,90)` with the original code and the check `elif n <= minNum ... else nowIndex = ...`. I just noticed that I only mentioned `n <= minNum`, of course that would also have to be changed in the other `elif` - or you can make the last `elif` just a plain `else`. I'm going off to dinner now, but if problems remain, I'll be back in a bit over an hour. – Daniel Fischer Mar 5 '12 at 17:20