X-Git-Url: https://git.ralfj.de/rust-101.git/blobdiff_plain/931a4309e60e7a4915cfbf88dee7f0c3e875a63f..17ab30e2988868e5f59b36bb0364cadb0a1c42f8:/solutions/src/bigint.rs?ds=inline diff --git a/solutions/src/bigint.rs b/solutions/src/bigint.rs index e9dfdf0..0abb6b3 100644 --- a/solutions/src/bigint.rs +++ b/solutions/src/bigint.rs @@ -2,30 +2,41 @@ use std::ops; use std::cmp; use std::fmt; +pub trait Minimum { + /// Return the smaller of the two + fn min<'a>(&'a self, other: &'a Self) -> &'a Self; +} + +/// Return a pointer to the minimal value of `v`. +pub fn vec_min(v: &Vec) -> Option<&T> { + let mut min = None; + for e in v { + min = Some(match min { + None => e, + Some(n) => e.min(n) + }); + } + min +} + pub struct BigInt { data: Vec, // least significant digits first. The last block will *not* be 0. } // Add with carry, returning the sum and the carry fn overflowing_add(a: u64, b: u64, carry: bool) -> (u64, bool) { - match u64::checked_add(a, b) { - Some(sum) if !carry => (sum, false), - Some(sum) => { // we have to increment the sum by 1, where it may overflow again - match u64::checked_add(sum, 1) { - Some(total_sum) => (total_sum, false), - None => (0, true) // we overflowed incrementing by 1, so we are just "at the edge" - } - }, - None => { - // Get the remainder, i.e., the wrapping sum. This cannot overflow again by adding just 1, so it is safe - // to add the carry here. - let rem = u64::wrapping_add(a, b) + if carry { 1 } else { 0 }; - (rem, true) - } + let sum = u64::wrapping_add(a, b); + let carry_n = if carry { 1 } else { 0 }; + if sum >= a { // the first sum did not overflow + let sum_total = u64::wrapping_add(sum, carry_n); + let had_overflow = sum_total < sum; + (sum_total, had_overflow) + } else { // the first sum did overflow + // it is impossible for this to overflow again, as we are just adding 0 or 1 + (sum + carry_n, true) } } - impl BigInt { /// Construct a BigInt from a "small" one. pub fn new(x: u64) -> Self { @@ -53,43 +64,6 @@ impl BigInt { BigInt { data: v } } - /// Return the smaller of the two numbers - pub fn min(self, other: Self) -> Self { - debug_assert!(self.test_invariant() && other.test_invariant()); - if self.data.len() < other.data.len() { - self - } else if self.data.len() > other.data.len() { - other - } else { - // compare back-to-front, i.e., most significant digit first - let mut idx = self.data.len()-1; - while idx > 0 { - if self.data[idx] < other.data[idx] { - return self; - } else if self.data[idx] > other.data[idx] { - return other; - } - else { - idx = idx-1; - } - } - // the two are equal - return self; - } - } - - /// Returns a view on the raw digits representing the number. - /// - /// ``` - /// use solutions::bigint::BigInt; - /// let b = BigInt::new(13); - /// let d = b.data(); - /// assert_eq!(d, [13]); - /// ``` - pub fn data(&self) -> &[u64] { - &self.data[..] - } - /// Increments the number by "by". pub fn inc(&mut self, mut by: u64) { let mut idx = 0; @@ -129,34 +103,65 @@ impl Clone for BigInt { } } - impl PartialEq for BigInt { fn eq(&self, other: &BigInt) -> bool { debug_assert!(self.test_invariant() && other.test_invariant()); - self.data() == other.data() + self.data == other.data + } +} + +impl Minimum for BigInt { + fn min<'a>(&'a self, other: &'a Self) -> &'a Self { + debug_assert!(self.test_invariant() && other.test_invariant()); + if self.data.len() < other.data.len() { + self + } else if self.data.len() > other.data.len() { + other + } else { + // compare back-to-front, i.e., most significant digit first + let mut idx = self.data.len()-1; + while idx > 0 { + if self.data[idx] < other.data[idx] { + return self; + } else if self.data[idx] > other.data[idx] { + return other; + } + else { + idx = idx-1; + } + } + // the two are equal + return self; + } } } impl fmt::Debug for BigInt { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { - self.data().fmt(f) + self.data.fmt(f) } } impl<'a, 'b> ops::Add<&'a BigInt> for &'b BigInt { type Output = BigInt; fn add(self, rhs: &'a BigInt) -> Self::Output { - let mut result_vec:Vec = Vec::with_capacity(cmp::max(self.data().len(), rhs.data().len())); + let mut result_vec:Vec = Vec::with_capacity(cmp::max(self.data.len(), rhs.data.len())); let mut carry:bool = false; // the carry bit - for (i, val) in self.data().into_iter().enumerate() { + for (i, val) in (&self.data).into_iter().enumerate() { // compute next digit and carry - let rhs_val = if i < rhs.data().len() { rhs.data()[i] } else { 0 }; + let rhs_val = if i < rhs.data.len() { rhs.data[i] } else { 0 }; let (sum, new_carry) = overflowing_add(*val, rhs_val, carry); // store them result_vec.push(sum); carry = new_carry; } - BigInt::from_vec(result_vec) + if carry { + result_vec.push(1); + } + // We know that the invariant holds: overflowing_add would only return (0, false) if + // the arguments are (0, 0, false), but we know that in the last iteration, `val` is the + // last digit of `self` and hence not 0. + BigInt { data: result_vec } } }