249 lines
8.9 KiB
Rust
249 lines
8.9 KiB
Rust
/// Define a histogram with a number of bins known at compile time.
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///
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/// Because macros are not hygenic for items, everything is defined in a private
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/// module with the given name. This includes the `Histogram` struct, the number
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/// of bins `LEN` and the histogram iterator `HistogramIter`.
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///
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/// Note that you need to make sure that `core` is accessible to the macro.
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///
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///
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/// # Example
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///
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/// ```
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/// # extern crate core;
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/// # #[macro_use] extern crate average;
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/// # fn main() {
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/// use average::Histogram;
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///
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/// define_histogram!(hist, 10);
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/// let mut h = hist::Histogram::with_const_width(0., 100.);
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/// for i in 0..100 {
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/// h.add(i as f64).unwrap();
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/// }
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/// assert_eq!(h.bins(), &[10, 10, 10, 10, 10, 10, 10, 10, 10, 10]);
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/// # }
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/// ```
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#[macro_export]
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macro_rules! define_histogram {
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($name:ident, $LEN:expr) => (
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mod $name {
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use $crate::Histogram as Trait;
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/// The number of bins of the histogram.
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const LEN: usize = $LEN;
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/// A histogram with a number of bins known at compile time.
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#[derive(Clone)]
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pub struct Histogram {
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/// The ranges defining the bins of the histogram.
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range: [f64; LEN + 1],
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/// The bins of the histogram.
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bin: [u64; LEN],
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}
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impl ::core::fmt::Debug for Histogram {
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fn fmt(&self, formatter: &mut ::core::fmt::Formatter)
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-> ::core::fmt::Result {
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write!(formatter, "Histogram {{ range: ")?;
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self.range[..].fmt(formatter)?;
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write!(formatter, ", bins: ")?;
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self.bin[..].fmt(formatter)?;
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write!(formatter, " }}")
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}
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}
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impl Histogram {
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/// Construct a histogram with constant bin width.
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#[inline]
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pub fn with_const_width(start: f64, end: f64) -> Self {
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let step = (end - start) / (LEN as f64);
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let mut range = [0.; LEN + 1];
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for (i, r) in range.iter_mut().enumerate() {
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*r = start + step * (i as f64);
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}
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Self {
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range,
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bin: [0; LEN],
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}
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}
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/// Construct a histogram from given ranges.
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///
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/// The ranges are given by an iterator of floats where neighboring
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/// pairs `(a, b)` define a bin for all `x` where `a <= x < b`.
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///
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/// Fails if the iterator is too short (less than `n + 1` where `n`
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/// is the number of bins), is not sorted or contains `nan`. `inf`
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/// and empty ranges are allowed.
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#[inline]
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pub fn from_ranges<T>(ranges: T) -> Result<Self, ()>
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where T: IntoIterator<Item = f64>
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{
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let mut range = [0.; LEN + 1];
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let mut last_i = 0;
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for (i, r) in ranges.into_iter().enumerate() {
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if i > LEN {
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break;
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}
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if r.is_nan() {
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return Err(());
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}
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if i > 0 && range[i - 1] > r {
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return Err(());
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}
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range[i] = r;
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last_i = i;
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}
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if last_i != LEN {
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return Err(());
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}
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Ok(Self {
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range,
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bin: [0; LEN],
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})
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}
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/// Find the index of the bin corresponding to the given sample.
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///
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/// Fails if the sample is out of range of the histogram.
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#[inline]
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pub fn find(&self, x: f64) -> Result<usize, ()> {
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// We made sure our ranges are valid at construction, so we can
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// safely unwrap.
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match self.range.binary_search_by(|p| p.partial_cmp(&x).unwrap()) {
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Ok(i) if i < LEN => {
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Ok(i)
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},
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Err(i) if i > 0 && i < LEN + 1 => {
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Ok(i - 1)
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},
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_ => {
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Err(())
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},
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}
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}
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/// Add a sample to the histogram.
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///
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/// Fails if the sample is out of range of the histogram.
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#[inline]
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pub fn add(&mut self, x: f64) -> Result<(), ()> {
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if let Ok(i) = self.find(x) {
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self.bin[i] += 1;
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Ok(())
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} else {
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Err(())
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}
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}
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/// Return the ranges of the histogram.
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#[inline]
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pub fn ranges(&self) -> &[f64] {
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&self.range[..]
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}
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/// Return an iterator over the bins and corresponding ranges:
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/// `((lower, upper), count)`
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#[inline]
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pub fn iter(&self) -> IterHistogram {
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self.into_iter()
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}
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/// Reset all bins to zero.
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#[inline]
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pub fn reset(&mut self) {
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self.bin = [0; LEN];
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}
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/// Return the lower range limit.
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///
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/// (The corresponding bin might be empty.)
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#[inline]
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pub fn range_min(&self) -> f64 {
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self.range[0]
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}
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/// Return the upper range limit.
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///
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/// (The corresponding bin might be empty.)
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#[inline]
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pub fn range_max(&self) -> f64 {
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self.range[LEN]
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}
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}
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/// Iterate over all `(range, count)` pairs in the histogram.
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pub struct IterHistogram<'a> {
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remaining_bin: &'a [u64],
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remaining_range: &'a [f64],
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}
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impl<'a> ::core::iter::Iterator for IterHistogram<'a> {
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type Item = ((f64, f64), u64);
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fn next(&mut self) -> Option<((f64, f64), u64)> {
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if let Some((&bin, rest)) = self.remaining_bin.split_first() {
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let left = self.remaining_range[0];
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let right = self.remaining_range[1];
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self.remaining_bin = rest;
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self.remaining_range = &self.remaining_range[1..];
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return Some(((left, right), bin));
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}
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None
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}
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}
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impl<'a> ::core::iter::IntoIterator for &'a Histogram {
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type Item = ((f64, f64), u64);
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type IntoIter = IterHistogram<'a>;
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fn into_iter(self) -> IterHistogram<'a> {
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IterHistogram {
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remaining_bin: self.bins(),
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remaining_range: self.ranges(),
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}
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}
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}
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impl $crate::Histogram for Histogram {
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#[inline]
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fn bins(&self) -> &[u64] {
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&self.bin[..]
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}
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}
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impl<'a> ::core::ops::AddAssign<&'a Self> for Histogram {
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#[inline]
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fn add_assign(&mut self, other: &Self) {
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for (a, b) in self.range.iter().zip(other.range.iter()) {
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assert_eq!(a, b, "Both histograms must have the same ranges");
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}
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for (x, y) in self.bin.iter_mut().zip(other.bin.iter()) {
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*x += y;
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}
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}
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}
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impl ::core::ops::MulAssign<u64> for Histogram {
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#[inline]
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fn mul_assign(&mut self, other: u64) {
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for x in self.bin.iter_mut() {
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*x *= other;
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}
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}
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}
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impl $crate::Merge for Histogram {
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fn merge(&mut self, other: &Self) {
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assert_eq!(self.bin.len(), other.bin.len());
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for (a, b) in self.range.iter().zip(other.range.iter()) {
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assert_eq!(a, b, "Both histograms must have the same ranges");
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}
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for (a, b) in self.bin.iter_mut().zip(other.bin.iter()) {
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*a += *b;
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}
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}
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}
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}
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);
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}
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