Allocate about a million characters and set them initially to all `0`

.

Then each call to the function simply increments the number and returns it, something like:

```
# Gives you your 1MB heap space.
num = new digit/byte/char/whatever[about a million]
# Initialise all digits to zero (1-based arrays).
def init():
for posn ranges from 1 to size(num):
set num[posn] to 0
```

```
# Print next value.
def printNext():
# Carry-based add-1-to-number.
# Last non-zero digit stored for truncated output.
set carry to 1
set posn to size(num)
set lastposn to posn
# Keep going until no more carry or out of digits.
while posn is greater than 0 and carry is 1:
# Detect carry and continue, or increment and stop.
if num[posn] is '9':
set num[posn] to '0'
set lastposn to posn minus 1
else:
set num[posn] to num[posn] + 1
set carry to 0
set posn to posn minus one
# Carry set after all digits means you've exhausted all numbers.
if carry is 1:
exit badly
# Output the number.
output "0."
for posn ranges from 1 to lastposn
output num[posn]
```

The use of `lastposn`

prevents the output of trailing zeros. If you don't care about that, you can remove every line with `lastposn`

in it and run the output loop from `1 to size(num)`

instead.

Calling this every millisecond will give you about well over 10^{some--big-number-resulting-in-a-runtime-older-than-the-age-of-the-universe} years of run time.

I wouldn't go with your time-based solution because the time may change - think daylight savings or summer time and people adjusting clocks due to drift.

Here's some actual Python code which demonstrates it:

```
import sys
num = "00000"
def printNext():
global num
carry = 1
posn = len(num) - 1
lastposn = posn
while posn >= 0 and carry == 1:
if num[posn:posn+1] == '9':
num = num[:posn] + '0' + num[posn+1:]
lastposn = posn - 1
else:
num = num[:posn] + chr(ord(num[posn:posn+1]) + 1) + num[posn+1:]
carry = 0
posn = posn - 1
if carry == 1:
print "URK!"
sys.exit(0)
s = "0."
for posn in range (0,lastposn+1):
s = s + num[posn:posn+1];
print s
for i in range (0,15):
printNext()
```

And the output:

```
0.00001
0.00002
0.00003
0.00004
0.00005
0.00006
0.00007
0.00008
0.00009
0.0001
0.00011
0.00012
0.00013
0.00014
0.00015
```