Allocate about a million characters and set them initially to all
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).
for posn ranges from 1 to size(num):
set num[posn] to 0
# Print next value.
# 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
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:
# Output the number.
for posn ranges from 1 to lastposn
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 10some--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:
num = "00000"
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
num = num[:posn] + chr(ord(num[posn:posn+1]) + 1) + num[posn+1:]
carry = 0
posn = posn - 1
if carry == 1:
s = "0."
for posn in range (0,lastposn+1):
s = s + num[posn:posn+1];
for i in range (0,15):
And the output: