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.

**edit: link of problem http://www.spoj.pl/problems/PRIME1/

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()
```