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GitHub - Robert-Cunningham/pozzo: A (very) fast lucky number checker.
2026-06-09 · via Hacker News

Pozzo tests large integers for luckiness. It is dramatically more efficient than its predecessors, increasing the number of values searched for several OEIS sequences by a factor of between 1,000 and 100,000,000.

What is a Lucky Number?

Lucky numbers are produced by a sieve. From the OEIS Wiki:

Start with a sequence of positive odd numbers:

1, 3, 5, 7, 9, 11, 13, 15, 17, 19, 21, ...

The first nonunit survivor is 3, so strike every third value in this list:

1, 3, [5], 7, 9, [11], 13, 15, [17], 19, 21, [23], 25, 27, [29], 31, ...

The next unused survivor is 7, so strike every seventh value of the new list.

1, 3, 7, 9, 13, 15, [19], 21, 25, 27, 31, 33, 37, [39], 43, ...

The values that are never struck out are the lucky numbers:

1, 3, 7, 9, 13, 15, 21, 25, 31, ...

Lucky numbers are of some interest because they share several statistical properties with primes.

Main Idea

To check k numbers for luckiness, we maintain a Fenwick tree over k bits, where each node counts the number of set bits in its range. By traversing this tree, we can very quickly look up and unset the ith set bit.

Memory constrains the size of the sieve. The sieve requires two bits per odd integer (one bit for the bitset, and one amortized bit for the Fenwick tree). This averages out to one integer per bit of RAM.

Note that this does not bound the maximum size of the numbers we can prove lucky; we can prove luckiness of candidates much higher than the sieve limit, with the following algorithm:

  1. Start each candidate at rank = (n + 1) / 2, the rank among odd numbers after deleting evens.
  2. For each lucky deletion factor l, reject when rank % l == 0.
  3. Otherwise update rank -= rank / l.
  4. Once rank < l, the candidate has survived all future deletions and is lucky.

Motivation

And what hackathon project are you presenting today?

The integer 4,398,046,511,103.

After spending several hackathons making things like "Uber for dogs with hearing loss", I decided that my next project would be an off-the-shelf integer. It was a very Duchamp era of my life.

I wanted to extend an OEIS sequence, but which one? Ideally one where the values are rare enough to be exciting, but not so rare that we can't find a new one. Lucky numbers are distributed like $\log^{-1}(p)$, so sequences involving intersections with lucky numbers make reasonable targets. For example, A057613 (lucky numbers of the form 2^k - 1) is very promising.

Results

Bold values are newly discovered.

Lucky Repdigits

1, 3, 7, 9, 33, 99, 111, 777, 9999, 33333, 55555, 111111, 777777, 7777777, 55555555, 777777777777, 9999999999999.

A031882: Lucky decimal repdigits.

Old bound: a(16) > 10^9

New bound: a(18) >= 777777777777777

Search space expanded by a factor of $8 * 10^5$.

Lucky Mersennes

1, 3, 7, 15, 31, 63, 127, 511, 1023, 4095, 8191, 131071, 524287, 2097151, 4194303, 8388607, 33554431, 67108863, 8589934591, 68719476735, 1099511627775, 4398046511103.

A057613: Lucky numbers of the form 2^k - 1.

Old bound: a(20) >= 2^34 - 1

New bound: a(23) >= 2^49 - 1

Search space expanded by a factor of $3 * 10^4$.

Lucky Mersennes With Prime Exponent

3, 7, 31, 127, 8191, 131071, 524287, 8388607.

A057612: Lucky numbers of the form 2^p - 1 for prime p.

Old bound: a(9) > 2^31 - 1

New bound: a(9) >= 2^59 - 1

Search space expanded by a factor of $3 * 10^8$.

Lucky Fibonacci Numbers

1, 3, 13, 21, 1597, 6765, 75025, 32951280099.

A057589: Lucky Fibonacci numbers.

Old bound: a(8) >= 12586269025

New bound: a(9) >= 72723460248141

Search space expanded by a factor of $6 * 10^3$.

Lucky Lucas Numbers

1, 3, 7, 3571, 9349, 710647, 12752043.

A306632: Lucky Lucas numbers.

Old bound: a(8) >= 10^9

New bound: a(8) >= 100501350283429

Search space expanded by a factor of $1 * 10^5$.

Lucky Tetranacci Numbers

1, 15, 10671, 274423830033.

A140285: Lucky tetranacci numbers.

Old bound: a(4) >= 10312882481

New bound: a(5) >= 194314552299285

Search space expanded by a factor of $2 * 10^4$.

Lucky Consecutive-Digit Numbers

21, 43, 67, 87, 321, 4321, 4567, 6789, 78901, 432109, 9012345, 67890123, 109876543, 123456789, 6543210987, 8901234567, 9876543210987.

A118569: Lucky numbers with ascending or descending cyclic consecutive decimal digits.

Old bound: a(17) >= 10^10

New bound: a(18) >= 123456789012345

Search space expanded by a factor of $1 * 10^4$.

Run

The reported run took about 12 hours on a machine with 128GB of RAM. The sieve covers approximately $2^{40}$ integers. The log can be found in pozzo.log.

Usage

cargo test
cargo run --release -- --memory-mib 114688

What's with the name?

From Waiting for Godot.

Credit

I started this in 2019 and would certainly not have finished it without 2026-era coding agents, to whom most credit is due.