I’m modifying an indefinite sieve of Eratosthenes from here so it uses wheel factorization to skip more composites than its current form of just checking all odds.

I’ve worked out how to generate the steps to take to reach all the gaps along the wheel. From there I figured I could just substitute the +2’s for these wheel steps but it’s causing the sieve to skip primes. Here's the code:

```
from itertools import count, cycle
def dvprm(end):
"finds primes by trial division. returns a list"
primes=[2]
for i in range(3, end+1, 2):
if all(map(lambda x:i%x, primes)):
primes.append(i)
return primes
def prod(seq, factor=1):
"sequence -> product"
for i in seq:factor*=i
return factor
def wheelGaps(primes):
"""returns list of steps to each wheel gap
that start from the last value in primes"""
strtPt= primes.pop(-1)#where the wheel starts
whlCirm= prod(primes)# wheel's circumference
#spokes are every number that are divisible by primes (composites)
gaps=[]#locate where the non-spokes are (gaps)
for i in xrange(strtPt, strtPt+whlCirm+1, 2):
if not all(map(lambda x:i%x,primes)):continue#spoke
else: gaps.append(i)#non-spoke
#find the steps needed to jump to each gap (beginning from the start of the wheel)
steps=[]#last step returns to start of wheel
for i,j in enumerate(gaps):
if i==0:continue
steps.append(j - gaps[i-1])
return steps
def wheel_setup(num):
"builds initial data for sieve"
initPrms=dvprm(num)#initial primes from the "roughing" pump
gaps = wheelGaps(initPrms[:])#get the gaps
c= initPrms.pop(-1)#prime that starts the wheel
return initPrms, gaps, c
def wheel_psieve(lvl=0, initData=None):
'''postponed prime generator with wheels
Refs: http://stackoverflow.com/a/10733621
http://stackoverflow.com/a/19391111'''
whlSize=11#wheel size, 1 higher prime than
# 5 gives 2- 3 wheel 11 gives 2- 7 wheel
# 7 gives 2- 5 wheel 13 gives 2-11 wheel
#set to 0 for no wheel
if lvl:#no need to rebuild the gaps, just pass them down the levels
initPrms, gaps, c = initData
else:#but if its the top level then build the gaps
if whlSize>4:
initPrms, gaps, c = wheel_setup(whlSize)
else:
initPrms, gaps, c= dvprm(7), [2], 9
#toss out the initial primes
for p in initPrms:
yield p
cgaps=cycle(gaps)
compost = {}#found composites to skip
ps=wheel_psieve(lvl+1, (initPrms, gaps, c))
p=next(ps)#advance lower level to appropriate square
while p*p < c:
p=next(ps)
psq=p*p
while True:
step1 = next(cgaps)#step to next value
step2=compost.pop(c, 0)#step to next multiple
if not step2:
#see references for details
if c < psq:
yield c
c += step1
continue
else:
step2=2*p
p=next(ps)
psq=p*p
d = c + step2
while d in compost:
d+= step2
compost[d]= step2
c += step1
```

I'm using this to check it:

```
def test(num=100):
found=[]
for i,p in enumerate(wheel_psieve(), 1):
if i>num:break
found.append(p)
print sum(found)
return found
```

When I set the wheel size to 0, I get the correct sum of 24133 for the first one hundred primes, but when I use any other wheel size, I end up with missing primes, incorrect sums and composites. Even a 2-3 wheel (which uses alternate steps of 2 and 4) makes the sieve miss primes. What am I doing wrong?