More factorial/fibonacci optimizing
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@ -1,16 +1,16 @@
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use criterion::{black_box, criterion_group, criterion_main, BenchmarkId, Criterion};
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use rusty_numbers::{factorial, fibonacci, mem_fibonacci, mem_factorial};
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use rusty_numbers::{factorial, fibonacci, it_factorial, mem_fibonacci, rec_fibonacci};
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fn bench_factorial(c: &mut Criterion) {
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let mut group = c.benchmark_group("Factorials");
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for i in [0usize, 5, 10, 15, 20, 25, 30, 34].iter() {
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group.bench_with_input(BenchmarkId::new("Recursive memoized", i), i, |b, i| {
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b.iter(|| mem_factorial(*i))
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});
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group.bench_with_input(BenchmarkId::new("Recursive naive", i), i, |b, i| {
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b.iter(|| factorial(*i))
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});
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group.bench_with_input(BenchmarkId::new("Iterative", i), i, |b, i| {
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b.iter(|| it_factorial(*i))
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});
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}
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group.finish();
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}
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@ -27,6 +27,16 @@ fn bench_fibonacci(c: &mut Criterion) {
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b.iter(|| fibonacci(*i))
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});
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}
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group.finish();
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let mut group = c.benchmark_group("Recursive Fibonacci");
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for i in [0usize, 5, 10, 15, 20, 25, 26, 27, 28, 29, 30].iter() {
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group.bench_with_input(BenchmarkId::new("Naive Recursive", i), i, |b, i| {
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b.iter(|| rec_fibonacci(*i))
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});
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}
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group.finish();
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}
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criterion_group!(benches, bench_factorial, bench_fibonacci);
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117
src/lib.rs
117
src/lib.rs
@ -37,6 +37,11 @@ pub fn mem_fibonacci(n: usize) -> Option<u128> {
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/// Actual calculating function for `fibonacci`
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#[inline]
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fn _mem_fibonacci(n: usize, table: &mut [u128]) -> Option<u128> {
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if n < 2 {
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// The first values are predefined.
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return Some(table[n]);
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}
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if n > 186 {
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return None;
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}
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@ -51,8 +56,8 @@ fn _mem_fibonacci(n: usize, table: &mut [u128]) -> Option<u128> {
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table[n] = a + b;
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Some(table[n])
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},
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x => Some(x)
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}
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x => Some(x),
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}
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}
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@ -101,8 +106,7 @@ pub fn fibonacci(n: usize) -> Option<u128> {
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}
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}
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/// Calculate the value of a factorial,
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/// using a lookup table for better worst-case performance.
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/// Calculate the value of a factorial iteratively
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///
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/// Can calculate up to 34! using native unsigned 128 bit integers.
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///
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@ -117,40 +121,22 @@ pub fn fibonacci(n: usize) -> Option<u128> {
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/// # assert!(invalid.is_none());
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/// ```
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#[inline]
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pub fn mem_factorial(n: usize) -> Option<u128> {
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let mut table = [0u128; 35];
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table[0] = 1;
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table[1] = 1;
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table[2] = 2;
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pub fn it_factorial(n: usize) -> Option<u128> {
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let mut total: u128 = 1;
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_mem_factorial(n, &mut table)
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match n {
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0 | 1 => Some(1u128),
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_ => {
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for x in 1..=n {
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total = total.checked_mul(x as u128)?;
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}
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/// Actual Calculation function for factoral
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#[inline]
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fn _mem_factorial(n: usize, table: &mut [u128]) -> Option<u128> {
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if n > 34 {
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return None
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Some(total)
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}
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match table[n] {
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// Empty spaces in the lookup array are zero-filled
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0 => {
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// The ? suffix passes along the Option value
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// to be handled later
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// See: https://doc.rust-lang.org/reference/expressions/operator-expr.html#the-question-mark-operator
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let prev = _mem_factorial(n - 1, table)?;
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table[n] = (n as u128) * prev;
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Some(table[n])
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},
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x => Some(x),
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}
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}
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/// Calculate the value of a factorial,
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/// Calculate the value of a factorial recrursively
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///
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/// Can calculate up to 34! using native unsigned 128 bit integers.
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///
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@ -184,36 +170,71 @@ mod tests {
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#[test]
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fn test_factorial() {
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assert_eq!(1, factorial(0).unwrap());
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assert_eq!(1, factorial(1).unwrap());
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assert_eq!(6, factorial(3).unwrap());
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for pair in [[1usize, 0], [1, 1], [2, 2], [6, 3]].iter() {
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assert_eq!(
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Some(pair[0] as u128),
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factorial(pair[1]),
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"{}! should be {}",
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pair[1],
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pair[0]
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);
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assert_eq!(
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Some(pair[0] as u128),
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it_factorial(pair[1]),
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"{}! should be {}",
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pair[1],
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pair[0]
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);
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}
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// Verify each implementation returns the same results
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let res = factorial(34);
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let res2 = mem_factorial(34);
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let res2 = it_factorial(34);
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assert!(res.is_some());
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assert_eq!(res.unwrap(), res2.unwrap());
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assert!(res2.is_some());
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assert_eq!(res, res2);
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let res = factorial(35);
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assert!(res.is_none());
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// Bounds checks
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assert!(factorial(35).is_none());
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assert!(it_factorial(35).is_none());
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}
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#[test]
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fn test_fibonacci() {
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assert_eq!(0, fibonacci(0).unwrap());
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assert_eq!(1, fibonacci(1).unwrap());
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assert_eq!(1, fibonacci(2).unwrap());
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let res = fibonacci(20);
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let res2 = rec_fibonacci(20);
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assert_eq!(res, res2);
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// Sanity checking
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for pair in [[0usize, 0], [1, 1], [1, 2], [2, 3]].iter() {
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assert_eq!(
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Some(pair[0] as u128),
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fibonacci(pair[1]),
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"fibonacci({}) should be {}",
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pair[1],
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pair[0]
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);
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assert_eq!(
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Some(pair[0] as u128),
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mem_fibonacci(pair[1]),
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"fibonacci({}) should be {}",
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pair[1],
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pair[0]
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);
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assert_eq!(
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Some(pair[0] as u128),
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rec_fibonacci(pair[1]),
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"fibonacci({}) should be {}",
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pair[1],
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pair[0]
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);
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}
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// Verify each implementation returns the same results
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let res = fibonacci(186);
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let res2 = mem_fibonacci(186);
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assert!(res.is_some());
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assert!(res2.is_some());
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assert_eq!(res.unwrap(), res2.unwrap());
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assert_eq!(res, res2);
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let res = fibonacci(187);
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assert!(res.is_none());
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// Bounds checks
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assert!(fibonacci(187).is_none());
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assert!(mem_fibonacci(187).is_none());
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}
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}
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