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// This file is part of ICU4X. For terms of use, please see the file
// called LICENSE at the top level of the ICU4X source tree
// (online at: https://github.com/unicode-org/icu4x/blob/main/LICENSE ).
use smallvec::SmallVec;
use core::cmp;
use core::cmp::Ordering;
use core::fmt;
use core::ops::RangeInclusive;
use core::str::FromStr;
use crate::uint_iterator::IntIterator;
#[cfg(feature = "ryu")]
use crate::LimitError;
use crate::ParseError;
// FixedDecimal assumes usize (digits.len()) is at least as big as a u16
#[cfg(not(any(
target_pointer_width = "16",
target_pointer_width = "32",
target_pointer_width = "64"
)))]
compile_error!("The fixed_decimal crate only works if usizes are at least the size of a u16");
/// A struct containing decimal digits with efficient iteration and manipulation by magnitude
/// (power of 10).
///
/// Supports a mantissa of non-zero digits and a number of leading and trailing
/// zeros, as well as an optional sign; used for formatting and plural selection.
///
/// # Data Types
///
/// The following types can be converted to a `FixedDecimal`:
///
/// - Integers, signed and unsigned
/// - Strings representing an arbitrary-precision decimal
/// - Floating point values (using the `ryu` feature)
///
/// To create a [`FixedDecimal`] with fraction digits, either create it from an integer and then
/// call [`FixedDecimal::multiplied_pow10`], create it from a string, or (when the `ryu` feature is
/// enabled) create it from a floating point value using [`FixedDecimal::try_from_f64`].
///
/// # Magnitude and Position
///
/// Each digit in a `FixedDecimal` is indexed by a *magnitude*, or the digit's power of 10.
/// Illustration for the number "12.34":
///
/// | Magnitude | Digit | Description |
/// |-----------|-------|------------------|
/// | 1 | 1 | Tens place |
/// | 0 | 2 | Ones place |
/// | -1 | 3 | Tenths place |
/// | -2 | 4 | Hundredths place |
///
/// Some functions deal with a *position* for the purpose of padding, truncating, or rounding a
/// number. In these cases, the position sits between the corresponding magnitude of that position
/// and the next lower significant digit.
/// Illustration:
///
/// ```text
/// Position: 2 0 -2
/// Number: |1|2.3|4|
/// Position: 1 -1
/// ```
///
/// Expected output of various operations, all with input "12.34":
///
/// | Operation | Position | Expected Result |
/// |--------------------------|-----------|-----------------|
/// | Truncate to tens | 1 | 10 |
/// | Truncate to tenths | -1 | 12.3 |
/// | Pad to ten thousands | 4 | 0012.34 |
/// | Pad to ten thousandths | -4 | 12.3400 |
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut dec = FixedDecimal::from(250);
/// assert_eq!("250", dec.to_string());
///
/// dec.multiply_pow10(-2);
/// assert_eq!("2.50", dec.to_string());
/// ```
#[derive(Debug, Clone, PartialEq)]
pub struct FixedDecimal {
/// List of digits; digits\[0\] is the most significant.
///
/// Invariants:
/// - Must not include leading or trailing zeros
/// - Length must not exceed (magnitude - lower_magnitude + 1)
// TODO: Consider using a nibble array
digits: SmallVec<[u8; 8]>,
/// Power of 10 of digits\[0\].
///
/// Invariants:
/// - <= upper_magnitude
/// - >= lower_magnitude
magnitude: i16,
/// Power of 10 of the most significant digit, which may be zero.
///
/// Invariants:
/// - >= 0
/// - >= magnitude
upper_magnitude: i16,
/// Power of 10 of the least significant digit, which may be zero.
///
/// Invariants:
/// - <= 0
/// - <= magnitude
lower_magnitude: i16,
/// The sign; note that a positive value may be represented by either
/// `Sign::Positive` (corresponding to a prefix +) or `Sign::None`
/// (corresponding to the absence of a prefix sign).
sign: Sign,
}
/// A specification of the sign used when formatting a number.
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
#[allow(clippy::exhaustive_enums)]
// There are only 3 sign values, and they correspond to the low-level data model of FixedDecimal and UTS 35.
pub enum Sign {
/// No sign (implicitly positive, e.g., 1729).
None,
/// A negative sign, e.g., -1729.
Negative,
/// An explicit positive sign, e.g., +1729.
Positive,
}
/// Configuration for when to render the minus sign or plus sign.
#[non_exhaustive]
#[derive(Debug, Eq, PartialEq, Clone, Copy)]
pub enum SignDisplay {
/// Render the sign according to locale preferences. In most cases, this means a minus sign
/// will be shown on negative numbers, and no sign will be shown on positive numbers.
Auto,
/// Do not display the sign. Positive and negative numbers are indistinguishable.
Never,
/// Show a minus sign on negative numbers and a plus sign on positive numbers, including zero.
Always,
/// Show a minus sign on negative numbers and a plus sign on positive numbers, except do not
/// show any sign on positive or negative zero.
ExceptZero,
/// Show a minus sign on strictly negative numbers. Do not show a sign on positive numbers or
/// on positive or negative zero.
///
/// This differs from [`Auto`](SignDisplay::Auto) in that it does not render a sign on negative zero.
Negative,
}
impl Default for FixedDecimal {
/// Returns a `FixedDecimal` representing zero.
fn default() -> Self {
Self {
digits: SmallVec::new(),
magnitude: 0,
upper_magnitude: 0,
lower_magnitude: 0,
sign: Sign::None,
}
}
}
macro_rules! impl_from_signed_integer_type {
($itype:ident, $utype: ident) => {
impl From<$itype> for FixedDecimal {
fn from(value: $itype) -> Self {
let int_iterator: IntIterator<$utype> = value.into();
let sign = if int_iterator.is_negative {
Sign::Negative
} else {
Sign::None
};
let mut result = Self::from_ascending(int_iterator)
.expect("All built-in integer types should fit");
result.sign = sign;
result
}
}
};
}
macro_rules! impl_from_unsigned_integer_type {
($utype: ident) => {
impl From<$utype> for FixedDecimal {
fn from(value: $utype) -> Self {
let int_iterator: IntIterator<$utype> = value.into();
Self::from_ascending(int_iterator).expect("All built-in integer types should fit")
}
}
};
}
impl_from_signed_integer_type!(isize, usize);
impl_from_signed_integer_type!(i128, u128);
impl_from_signed_integer_type!(i64, u64);
impl_from_signed_integer_type!(i32, u32);
impl_from_signed_integer_type!(i16, u16);
impl_from_signed_integer_type!(i8, u8);
impl_from_unsigned_integer_type!(usize);
impl_from_unsigned_integer_type!(u128);
impl_from_unsigned_integer_type!(u64);
impl_from_unsigned_integer_type!(u32);
impl_from_unsigned_integer_type!(u16);
impl_from_unsigned_integer_type!(u8);
/// Mode used in a rounding operation.
///
/// # Comparative table of rounding modes
///
/// | Value | Ceil | Expand | Floor | Trunc | HalfCeil | HalfExpand | HalfFloor | HalfTrunc | HalfEven |
/// |:-----:|:----:|:------:|:-----:|:-----:|:--------:|:----------:|:---------:|:---------:|:--------:|
/// | +1.8 | +2 | +2 | +1 | +1 | +2 | +2 | +2 | +2 | +2 |
/// | +1.5 | " | " | " | " | " | " | +1 | +1 | " |
/// | +1.2 | " | " | " | " | +1 | +1 | " | " | +1 |
/// | +0.8 | +1 | +1 | 0 | 0 | " | " | " | " | " |
/// | +0.5 | " | " | " | " | " | " | 0 | 0 | 0 |
/// | +0.2 | " | " | " | " | 0 | 0 | " | " | " |
/// | -0.2 | 0 | -1 | -1 | " | " | " | " | " | " |
/// | -0.5 | " | " | " | " | " | -1 | -1 | " | " |
/// | -0.8 | " | " | " | " | -1 | " | " | -1 | -1 |
/// | -1.2 | -1 | -2 | -2 | -1 | " | " | " | " | " |
/// | -1.5 | " | " | " | " | " | -2 | -2 | " | -2 |
/// | -1.8 | " | " | " | " | -2 | " | " | -2 | " |
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
#[non_exhaustive]
pub enum RoundingMode {
/// Round up, or towards positive infinity.
Ceil,
/// Round away from zero, or towards infinity.
Expand,
/// Round down, or towards negative infinity.
Floor,
/// Round towards zero, or away from infinity.
Trunc,
/// Round to the nearest integer, resolving ties by rounding up.
HalfCeil,
/// Round to the nearest integer, resolving ties by rounding away from zero.
HalfExpand,
/// Round to the nearest integer, resolving ties by rounding down.
HalfFloor,
/// Round to the nearest integer, resolving ties by rounding towards zero.
HalfTrunc,
/// Round to the nearest integer, resolving ties by rounding towards the nearest even integer.
HalfEven,
}
/// Increment used in a rounding operation.
///
/// Forces a rounding operation to round to only multiples of the specified increment.
///
/// # Example
///
/// ```
/// use fixed_decimal::{FixedDecimal, RoundingIncrement, RoundingMode};
/// use writeable::assert_writeable_eq;
/// # use std::str::FromStr;
/// let dec = FixedDecimal::from_str("-7.266").unwrap();
/// let mode = RoundingMode::Expand;
/// let increments = [
/// // .266 normally expands to .27 when rounding on position -2...
/// (RoundingIncrement::MultiplesOf1, "-7.27"),
/// // ...however, when rounding to multiples of 2, .266 expands to .28, since the next multiple
/// // of 2 bigger than the least significant digit of the rounded value (7) is 8.
/// (RoundingIncrement::MultiplesOf2, "-7.28"),
/// // .266 expands to .30, since the next multiple of 5 bigger than 7 is 10.
/// (RoundingIncrement::MultiplesOf5, "-7.30"),
/// // .266 expands to .50, since the next multiple of 25 bigger than 27 is 50.
/// // Note how we compare against 27 instead of only 7, because the increment applies to
/// // the two least significant digits of the rounded value instead of only the least
/// // significant digit.
/// (RoundingIncrement::MultiplesOf25, "-7.50"),
/// ];
///
/// for (increment, expected) in increments {
/// assert_writeable_eq!(
/// dec.clone().rounded_with_mode_and_increment(
/// -2,
/// mode,
/// increment
/// ),
/// expected
/// );
/// }
/// ```
#[derive(Debug, Eq, PartialEq, Clone, Copy, Default)]
#[non_exhaustive]
pub enum RoundingIncrement {
/// Round the least significant digit to any digit (0-9).
///
/// This is the default rounding increment for all the methods that don't take a
/// `RoundingIncrement` as an argument.
#[default]
MultiplesOf1,
/// Round the least significant digit to multiples of two (0, 2, 4, 6, 8).
MultiplesOf2,
/// Round the least significant digit to multiples of five (0, 5).
MultiplesOf5,
/// Round the two least significant digits to multiples of twenty-five (0, 25, 50, 75).
///
/// With this increment, the rounding position index will match the least significant digit
/// of the multiple of 25; e.g. the number .264 expanded at position -2 using increments of 25
/// will give .50 as a result, since the next multiple of 25 bigger than 26 is 50.
MultiplesOf25,
}
// Adapters to convert runtime dispatched calls into const-inlined methods.
// This allows reducing the codesize for the common case of no increment.
#[derive(Copy, Clone, PartialEq)]
struct NoIncrement;
trait IncrementLike: Copy + Sized + PartialEq {
const MULTIPLES_OF_1: Option<Self>;
const MULTIPLES_OF_2: Option<Self>;
const MULTIPLES_OF_5: Option<Self>;
const MULTIPLES_OF_25: Option<Self>;
}
impl IncrementLike for RoundingIncrement {
const MULTIPLES_OF_1: Option<Self> = Some(Self::MultiplesOf1);
const MULTIPLES_OF_2: Option<Self> = Some(Self::MultiplesOf2);
const MULTIPLES_OF_5: Option<Self> = Some(Self::MultiplesOf5);
const MULTIPLES_OF_25: Option<Self> = Some(Self::MultiplesOf25);
}
impl IncrementLike for NoIncrement {
const MULTIPLES_OF_1: Option<Self> = Some(Self);
const MULTIPLES_OF_2: Option<Self> = None;
const MULTIPLES_OF_5: Option<Self> = None;
const MULTIPLES_OF_25: Option<Self> = None;
}
impl FixedDecimal {
/// Initialize a `FixedDecimal` with an iterator of digits in ascending
/// order of magnitude, starting with the digit at magnitude 0.
///
/// This method is not public; use `TryFrom::<isize>` instead.
fn from_ascending<T>(digits_iter: T) -> Result<Self, ParseError>
where
T: Iterator<Item = u8>,
{
// TODO: make X a usize generic to customize the size of this array
// https://github.com/rust-lang/rust/issues/44580
// NOTE: 39 is the size required for u128: ceil(log10(u128::MAX)) == 39.
const X: usize = 39;
// A temporary structure to allow the digits in the iterator to be reversed.
// The digits are inserted started from the end, and then a slice is copied
// into its final destination (result.digits).
let mut mem: [u8; X] = [0u8; X];
let mut trailing_zeros: usize = 0;
let mut i: usize = 0;
for (x, d) in digits_iter.enumerate() {
// Take only up to i16::MAX values so that we have enough capacity
if x > i16::MAX as usize {
return Err(ParseError::Limit);
}
// TODO: Should we check here that `d` is between 0 and 9?
// That should always be the case if IntIterator is used.
if i != 0 || d != 0 {
i += 1;
match X.checked_sub(i) {
#[allow(clippy::indexing_slicing)] // X - i < X
Some(v) => mem[v] = d,
// This error should be obsolete after X is made generic
None => return Err(ParseError::Limit),
}
} else {
trailing_zeros += 1;
}
}
let mut result: Self = Default::default();
if i != 0 {
let magnitude = trailing_zeros + i - 1;
debug_assert!(magnitude <= i16::MAX as usize);
result.magnitude = magnitude as i16;
result.upper_magnitude = result.magnitude;
debug_assert!(i <= X);
#[allow(clippy::indexing_slicing)] // X - i < X
result.digits.extend_from_slice(&mem[(X - i)..]);
}
#[cfg(debug_assertions)]
result.check_invariants();
Ok(result)
}
/// Gets the digit at the specified order of magnitude. Returns 0 if the magnitude is out of
/// range of the currently visible digits.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let dec = FixedDecimal::from(945);
/// assert_eq!(0, dec.digit_at(-1));
/// assert_eq!(5, dec.digit_at(0));
/// assert_eq!(4, dec.digit_at(1));
/// assert_eq!(9, dec.digit_at(2));
/// assert_eq!(0, dec.digit_at(3));
/// ```
pub fn digit_at(&self, magnitude: i16) -> u8 {
if magnitude > self.magnitude {
0 // Leading zero
} else {
// The following line can't fail: magnitude <= self.magnitude, by
// the if statement above, and u16::MAX == i16::MAX - i16::MIN, and
// usize is asserted to be at least as big as u16.
let j = crate::ops::i16_abs_sub(self.magnitude, magnitude) as usize;
match self.digits.get(j) {
Some(v) => *v,
None => 0, // Trailing zero
}
}
}
/// Gets the digit at the specified order of next upper magnitude (magnitude + 1).
/// Returns 0 if the next upper magnitude is out of range of currently visible digits or
/// the magnitude is equal to `i16::MAX`.
fn digit_at_previous_position(&self, magnitude: i16) -> u8 {
if magnitude == i16::MAX {
0
} else {
self.digit_at(magnitude + 1)
}
}
/// Gets the digit at the specified order of next lower magnitude (magnitude - 1).
/// Returns 0 if the next lower magnitude is out of range of currently visible digits or the
/// magnitude is equal to `i16::MIN`.
fn digit_at_next_position(&self, magnitude: i16) -> u8 {
if magnitude == i16::MIN {
0
} else {
self.digit_at(magnitude - 1)
}
}
/// Returns the relative ordering of the digits after `magnitude` with respect to 5.
fn half_at_next_magnitude(&self, magnitude: i16) -> Ordering {
#[cfg(debug_assertions)] // Depends on having no trailing zeroes.
self.check_invariants();
match self.digit_at_next_position(magnitude).cmp(&5) {
// If the next digit is equal to 5, we can know if we're at exactly 5
// by comparing the next magnitude with the last nonzero magnitude of
// the number.
Ordering::Equal => match (magnitude - 1).cmp(&self.nonzero_magnitude_end()) {
Ordering::Greater => {
// `magnitude - 1` has non-zero digits at its right,
// meaning the number overall must be greater than 5.
Ordering::Greater
}
Ordering::Equal => {
// `magnitude - 1` is the last digit of the number,
// meaning the number is exactly 5.
Ordering::Equal
}
Ordering::Less => {
debug_assert!(false, "digit `magnitude - 1` should not be zero");
Ordering::Less
}
},
// If the next digit is either greater or less than 5,
// we know that the digits cannot sum to exactly 5.
ord => ord,
}
}
/// Returns the relative ordering of the digits from `magnitude` onwards
/// with respect to the half increment of `increment`.
fn half_increment_at_magnitude<R: IncrementLike>(
&self,
magnitude: i16,
increment: R,
) -> Ordering {
#[cfg(debug_assertions)] // Depends on having no trailing zeroes.
self.check_invariants();
match Some(increment) {
x if x == R::MULTIPLES_OF_1 => self.half_at_next_magnitude(magnitude),
x if x == R::MULTIPLES_OF_2 => {
let current_digit = self.digit_at(magnitude);
// Equivalent to "if current_digit is odd".
if current_digit & 0x01 == 1 {
match magnitude.cmp(&self.nonzero_magnitude_end()) {
Ordering::Greater => {
// `magnitude` has non-zero digits at its right,
// meaning the number overall must be greater than
// the half increment.
Ordering::Greater
}
Ordering::Equal => {
// `magnitude` is the last digit of the number,
// meaning the number is exactly at a half increment.
Ordering::Equal
}
Ordering::Less => {
debug_assert!(false, "digit `magnitude` should not be zero");
Ordering::Less
}
}
} else {
// Even numbers are always below the half increment.
Ordering::Less
}
}
x if x == R::MULTIPLES_OF_5 => {
let current_digit = self.digit_at(magnitude);
match (current_digit % 5).cmp(&2) {
Ordering::Equal => {
// Need to know if the number exceeds 2.5.
self.half_at_next_magnitude(magnitude)
}
// If the next digit is either greater or less than the half increment,
// we know that the digits cannot sum to exactly it.
ord => ord,
}
}
x if x == R::MULTIPLES_OF_25 => {
let current_digit = self.digit_at(magnitude);
let prev_digit = self.digit_at_previous_position(magnitude);
let number = prev_digit * 10 + current_digit;
match (number % 25).cmp(&12) {
Ordering::Equal => {
// Need to know if the number exceeds 12.5.
self.half_at_next_magnitude(magnitude)
}
// If the next digit is either greater or less than the half increment,
// we know that the digits cannot sum to exactly it.
ord => ord,
}
}
_ => {
debug_assert!(false, "increment should be 1, 2, 5, or 25");
Ordering::Equal
}
}
}
/// Checks if this number is already rounded to the specified magnitude and
/// increment.
fn is_rounded<R: IncrementLike>(&self, position: i16, increment: R) -> bool {
// The number is rounded if it's already zero, since zero is a multiple of
// all increments.
if self.is_zero() {
return true;
}
match Some(increment) {
x if x == R::MULTIPLES_OF_1 => {
// The number is rounded if `position` is the last digit
position <= self.nonzero_magnitude_end()
}
x if x == R::MULTIPLES_OF_2 => {
// The number is rounded if the digit at `position` is zero or
// the position is the last digit and the digit is a multiple of the increment
// already.
match position.cmp(&self.nonzero_magnitude_end()) {
Ordering::Less => true,
Ordering::Equal => self.digit_at(position) & 0x01 == 0,
Ordering::Greater => false,
}
}
x if x == R::MULTIPLES_OF_5 => {
// The number is rounded if the digit at `position` is zero or
// the position is the last digit and the digit is a multiple of the increment
// already.
match position.cmp(&self.nonzero_magnitude_end()) {
Ordering::Less => true,
Ordering::Equal => self.digit_at(position) == 5,
Ordering::Greater => false,
}
}
x if x == R::MULTIPLES_OF_25 => {
// The number is rounded if the digits at `position` and `position + 1` are
// both zeroes or if the last two digits are a multiple of the increment already.
match position.cmp(&self.nonzero_magnitude_end()) {
Ordering::Less => {
// `position` cannot be `i16::MAX` since it's less than
// `self.nonzero_magnitude_end()`
if position + 1 < self.nonzero_magnitude_end() {
true
} else {
// position + 1 is equal to the last digit.
// Need to exit if the number is 50.
self.digit_at(position + 1) == 5
}
}
Ordering::Equal => {
let current_digit = self.digit_at(position);
let prev_digit = self.digit_at_previous_position(position);
let number = prev_digit * 10 + current_digit;
matches!(number, 25 | 75)
}
Ordering::Greater => false,
}
}
_ => {
debug_assert!(false, "INCREMENT should be 1, 2, 5, or 25");
false
}
}
}
/// Gets the visible range of digit magnitudes, in ascending order of magnitude. Call `.rev()`
/// on the return value to get the range in descending order. Magnitude 0 is always included,
/// even if the number has leading or trailing zeros.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let dec: FixedDecimal = "012.340".parse().expect("valid syntax");
/// assert_eq!(-3..=2, dec.magnitude_range());
/// ```
pub const fn magnitude_range(&self) -> RangeInclusive<i16> {
self.lower_magnitude..=self.upper_magnitude
}
/// Gets the magnitude of the largest nonzero digit. If the number is zero, 0 is returned.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let dec: FixedDecimal = "012.340".parse().expect("valid syntax");
/// assert_eq!(1, dec.nonzero_magnitude_start());
///
/// assert_eq!(0, FixedDecimal::from(0).nonzero_magnitude_start());
/// ```
pub fn nonzero_magnitude_start(&self) -> i16 {
self.magnitude
}
/// Gets the magnitude of the smallest nonzero digit. If the number is zero, 0 is returned.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let dec: FixedDecimal = "012.340".parse().expect("valid syntax");
/// assert_eq!(-2, dec.nonzero_magnitude_end());
///
/// assert_eq!(0, FixedDecimal::from(0).nonzero_magnitude_end());
/// ```
pub fn nonzero_magnitude_end(&self) -> i16 {
if self.is_zero() {
0
} else {
crate::ops::i16_sub_unsigned(self.magnitude, self.digits.len() as u16 - 1)
}
}
/// Returns whether the number has a numeric value of zero.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let dec: FixedDecimal = "000.000".parse().expect("valid syntax");
/// assert!(dec.is_zero());
/// ```
#[inline]
pub fn is_zero(&self) -> bool {
self.digits.is_empty()
}
/// Clears all the fields and sets the number to zero.
fn clear(&mut self) {
self.upper_magnitude = 0;
self.lower_magnitude = 0;
self.magnitude = 0;
self.digits.clear();
self.sign = Sign::None;
#[cfg(debug_assertions)]
self.check_invariants();
}
/// Shift the digits of this number by a power of 10.
///
/// Leading or trailing zeros may be added to keep the digit at magnitude 0 (the last digit
/// before the decimal separator) visible.
///
/// NOTE: if the operation causes overflow, the number will be set to zero.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut dec = FixedDecimal::from(42);
/// assert_eq!("42", dec.to_string());
///
/// dec.multiply_pow10(3);
/// assert_eq!("42000", dec.to_string());
/// ```
pub fn multiply_pow10(&mut self, delta: i16) {
match delta.cmp(&0) {
Ordering::Greater => {
let upper_magnitude = self.upper_magnitude.checked_add(delta);
match upper_magnitude {
Some(upper_magnitude) => {
self.upper_magnitude = upper_magnitude;
// If we get here, then the magnitude change is in-bounds.
let lower_magnitude = self.lower_magnitude + delta;
self.lower_magnitude = cmp::min(0, lower_magnitude);
}
None => {
// there is an overflow
self.clear();
}
}
}
Ordering::Less => {
let lower_magnitude = self.lower_magnitude.checked_add(delta);
match lower_magnitude {
Some(lower_magnitude) => {
self.lower_magnitude = lower_magnitude;
// If we get here, then the magnitude change is in-bounds.
let upper_magnitude = self.upper_magnitude + delta;
self.upper_magnitude = cmp::max(0, upper_magnitude);
}
None => {
// there is an overflow
self.clear();
}
}
}
Ordering::Equal => {}
};
if !self.is_zero() {
self.magnitude += delta;
}
#[cfg(debug_assertions)]
self.check_invariants();
}
/// Returns this number with its digits shifted by a power of 10.
///
/// Leading or trailing zeros may be added to keep the digit at magnitude 0 (the last digit
/// before the decimal separator) visible.
///
/// NOTE: if the operation causes overflow, the returned number will be zero.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let dec = FixedDecimal::from(42).multiplied_pow10(3);
/// assert_eq!("42000", dec.to_string());
/// ```
pub fn multiplied_pow10(mut self, delta: i16) -> Self {
self.multiply_pow10(delta);
self
}
/// Returns the sign of this number.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// use fixed_decimal::Sign;
/// # use std::str::FromStr;
///
/// assert_eq!(FixedDecimal::from_str("1729").unwrap().sign(), Sign::None);
/// assert_eq!(
/// FixedDecimal::from_str("-1729").unwrap().sign(),
/// Sign::Negative
/// );
/// assert_eq!(
/// FixedDecimal::from_str("+1729").unwrap().sign(),
/// Sign::Positive
/// );
/// ```
pub fn sign(&self) -> Sign {
self.sign
}
/// Changes the sign of this number to the one given.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// use fixed_decimal::Sign;
///
/// let mut dec = FixedDecimal::from(1729);
/// assert_eq!("1729", dec.to_string());
///
/// dec.set_sign(Sign::Negative);
/// assert_eq!("-1729", dec.to_string());
///
/// dec.set_sign(Sign::Positive);
/// assert_eq!("+1729", dec.to_string());
///
/// dec.set_sign(Sign::None);
/// assert_eq!("1729", dec.to_string());
/// ```
pub fn set_sign(&mut self, sign: Sign) {
self.sign = sign;
}
/// Returns this number with the sign changed to the one given.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// use fixed_decimal::Sign;
///
/// assert_eq!(
/// "+1729",
/// FixedDecimal::from(1729)
/// .with_sign(Sign::Positive)
/// .to_string()
/// );
/// assert_eq!(
/// "1729",
/// FixedDecimal::from(-1729).with_sign(Sign::None).to_string()
/// );
/// assert_eq!(
/// "-1729",
/// FixedDecimal::from(1729)
/// .with_sign(Sign::Negative)
/// .to_string()
/// );
/// ```
pub fn with_sign(mut self, sign: Sign) -> Self {
self.set_sign(sign);
self
}
/// Sets the sign of this number according to the given sign display strategy.
///
/// # Examples
/// ```
/// use fixed_decimal::FixedDecimal;
/// use fixed_decimal::SignDisplay::*;
///
/// let mut dec = FixedDecimal::from(1729);
/// assert_eq!("1729", dec.to_string());
/// dec.apply_sign_display(Always);
/// assert_eq!("+1729", dec.to_string());
/// ```
pub fn apply_sign_display(&mut self, sign_display: SignDisplay) {
use Sign::*;
match sign_display {
SignDisplay::Auto => {
if self.sign != Negative {
self.sign = None
}
}
SignDisplay::Always => {
if self.sign != Negative {
self.sign = Positive
}
}
SignDisplay::Never => self.sign = None,
SignDisplay::ExceptZero => {
if self.is_zero() {
self.sign = None
} else if self.sign != Negative {
self.sign = Positive
}
}
SignDisplay::Negative => {
if self.sign != Negative || self.is_zero() {
self.sign = None
}
}
}
}
/// Returns this number with its sign set according to the given sign display strategy.
///
/// # Examples
/// ```
/// use fixed_decimal::FixedDecimal;
/// use fixed_decimal::SignDisplay::*;
///
/// assert_eq!(
/// "+1729",
/// FixedDecimal::from(1729)
/// .with_sign_display(ExceptZero)
/// .to_string()
/// );
/// ```
pub fn with_sign_display(mut self, sign_display: SignDisplay) -> Self {
self.apply_sign_display(sign_display);
self
}
/// Returns this number with its leading zeroes removed.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let dec = FixedDecimal::from(123400)
/// .multiplied_pow10(-4)
/// .padded_start(4);
/// assert_eq!("0012.3400", dec.to_string());
///
/// assert_eq!("12.3400", dec.trimmed_start().to_string());
/// ```
pub fn trimmed_start(mut self) -> Self {
self.trim_start();
self
}
/// Removes the leading zeroes of this number.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut dec = FixedDecimal::from(123400)
/// .multiplied_pow10(-4)
/// .padded_start(4);
/// assert_eq!("0012.3400", dec.to_string());
///
/// dec.trim_start();
/// assert_eq!("12.3400", dec.to_string());
/// ```
///
/// There is no effect if the most significant digit has magnitude less than zero:
///
/// ```
/// # use fixed_decimal::FixedDecimal;
/// let mut dec = FixedDecimal::from(22).multiplied_pow10(-4);
/// assert_eq!("0.0022", dec.to_string());
///
/// dec.trim_start();
/// assert_eq!("0.0022", dec.to_string());
/// ```
pub fn trim_start(&mut self) {
self.upper_magnitude = cmp::max(self.magnitude, 0);
#[cfg(debug_assertions)]
self.check_invariants();
}
/// Returns this number with its trailing zeros removed.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let dec = FixedDecimal::from(123400)
/// .multiplied_pow10(-4)
/// .padded_start(4);
/// assert_eq!("0012.3400", dec.to_string());
///
/// assert_eq!("0012.34", dec.trimmed_end().to_string());
/// ```
pub fn trimmed_end(mut self) -> Self {
self.trim_end();
self
}
/// Removes the trailing zeros of this number.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut dec = FixedDecimal::from(123400)
/// .multiplied_pow10(-4)
/// .padded_start(4);
/// assert_eq!("0012.3400", dec.to_string());
///
/// dec.trim_end();
/// assert_eq!("0012.34", dec.to_string());
/// ```
///
/// There is no effect if the least significant digit has magnitude more than zero:
///
/// ```
/// # use fixed_decimal::FixedDecimal;
/// let mut dec = FixedDecimal::from(2200);
/// assert_eq!("2200", dec.to_string());
///
/// dec.trim_end();
/// assert_eq!("2200", dec.to_string());
/// ```
pub fn trim_end(&mut self) {
self.lower_magnitude = cmp::min(0, self.nonzero_magnitude_end());
#[cfg(debug_assertions)]
self.check_invariants();
}
/// Returns this number padded with leading zeros on a particular position.
///
/// Negative position numbers have no effect.
///
/// Also see [`FixedDecimal::with_max_position()`].
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut dec = FixedDecimal::from(42);
/// assert_eq!("42", dec.to_string());
/// assert_eq!("0042", dec.clone().padded_start(4).to_string());
///
/// assert_eq!("042", dec.clone().padded_start(3).to_string());
///
/// assert_eq!("42", dec.clone().padded_start(2).to_string());
///
/// assert_eq!("42", dec.clone().padded_start(1).to_string());
/// ```
pub fn padded_start(mut self, position: i16) -> Self {
self.pad_start(position);
self
}
/// Pads this number with leading zeros on a particular position.
///
/// Negative position numbers have no effect.
///
/// Also see [`FixedDecimal::set_max_position()`].
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut dec = FixedDecimal::from(42);
/// assert_eq!("42", dec.to_string());
///
/// dec.pad_start(4);
/// assert_eq!("0042", dec.to_string());
///
/// dec.pad_start(3);
/// assert_eq!("042", dec.to_string());
///
/// dec.pad_start(2);
/// assert_eq!("42", dec.to_string());
///
/// dec.pad_start(1);
/// assert_eq!("42", dec.to_string());
/// ```
pub fn pad_start(&mut self, position: i16) {
if position <= 0 {
return;
}
let mut magnitude = position - 1;
// Do not truncate nonzero digits
if magnitude <= self.magnitude {
magnitude = self.magnitude;
}
self.upper_magnitude = magnitude;
#[cfg(debug_assertions)]
self.check_invariants();
}
/// Returns this number padded with trailing zeros on a particular (negative) position.
/// Will truncate zeros if necessary, but will not truncate other digits.
///
/// Positive position numbers have no effect.
///
/// Also see [`FixedDecimal::trunced()`].
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("123.456").unwrap();
/// assert_eq!("123.456", dec.to_string());
///
/// assert_eq!("123.456", dec.clone().padded_end(-1).to_string());
///
/// assert_eq!("123.456", dec.clone().padded_end(-2).to_string());
///
/// assert_eq!("123.456000", dec.clone().padded_end(-6).to_string());
///
/// assert_eq!("123.4560", dec.clone().padded_end(-4).to_string());
/// ```
pub fn padded_end(mut self, position: i16) -> Self {
self.pad_end(position);
self
}
/// Pads this number with trailing zeros on a particular (non-positive) position. Will truncate
/// trailing zeros if necessary, but will not truncate other digits.
///
/// Positive position numbers have no effect.
///
/// Also see [`FixedDecimal::trunc()`].
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("123.456").unwrap();
/// assert_eq!("123.456", dec.to_string());
///
/// dec.pad_end(-2);
/// assert_eq!("123.456", dec.to_string());
///
/// dec.pad_end(-6);
/// assert_eq!("123.456000", dec.to_string());
///
/// let mut dec = FixedDecimal::from_str("123.000").unwrap();
/// dec.pad_end(0);
/// assert_eq!("123", dec.to_string());
///
/// ```
pub fn pad_end(&mut self, position: i16) {
if position > 0 {
return;
}
let bottom_magnitude = self.nonzero_magnitude_end();
let mut magnitude = position;
// Do not truncate nonzero digits
if magnitude >= bottom_magnitude {
magnitude = bottom_magnitude;
}
self.lower_magnitude = magnitude;
#[cfg(debug_assertions)]
self.check_invariants();
}
/// Returns this number with the leading significant digits truncated to a particular position,
/// deleting digits if necessary.
///
/// Also see [`FixedDecimal::padded_start()`].
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
/// assert_eq!("4235.970", dec.to_string());
///
/// assert_eq!("04235.970", dec.clone().with_max_position(5).to_string());
///
/// assert_eq!("35.970", dec.clone().with_max_position(2).to_string());
///
/// assert_eq!("5.970", dec.clone().with_max_position(1).to_string());
///
/// assert_eq!("0.970", dec.clone().with_max_position(0).to_string());
///
/// assert_eq!("0.070", dec.clone().with_max_position(-1).to_string());
///
/// assert_eq!("0.000", dec.clone().with_max_position(-2).to_string());
///
/// assert_eq!("0.0000", dec.clone().with_max_position(-4).to_string());
/// ```
pub fn with_max_position(mut self, position: i16) -> Self {
self.set_max_position(position);
self
}
/// Truncates the leading significant digits of this number to a particular position, deleting
/// digits if necessary.
///
/// Also see [`FixedDecimal::pad_start()`].
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
/// assert_eq!("4235.970", dec.to_string());
///
/// dec.set_max_position(5);
/// assert_eq!("04235.970", dec.to_string());
///
/// dec.set_max_position(2);
/// assert_eq!("35.970", dec.to_string());
///
/// dec.set_max_position(1);
/// assert_eq!("5.970", dec.to_string());
///
/// dec.set_max_position(0);
/// assert_eq!("0.970", dec.to_string());
///
/// dec.set_max_position(-1);
/// assert_eq!("0.070", dec.to_string());
///
/// dec.set_max_position(-2);
/// assert_eq!("0.000", dec.to_string());
///
/// dec.set_max_position(-4);
/// assert_eq!("0.0000", dec.to_string());
/// ```
pub fn set_max_position(&mut self, position: i16) {
self.lower_magnitude = cmp::min(self.lower_magnitude, position);
self.upper_magnitude = if position <= 0 { 0 } else { position - 1 };
if position <= self.nonzero_magnitude_end() {
self.digits.clear();
self.magnitude = 0;
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
let magnitude = position - 1;
if self.magnitude >= magnitude {
let cut = crate::ops::i16_abs_sub(self.magnitude, magnitude) as usize;
let _ = self.digits.drain(0..cut).count();
// Count number of leading zeroes
let extra_zeroes = self.digits.iter().position(|x| *x != 0).unwrap_or(0);
let _ = self.digits.drain(0..extra_zeroes).count();
debug_assert!(!self.digits.is_empty());
self.magnitude = crate::ops::i16_sub_unsigned(magnitude, extra_zeroes as u16);
}
#[cfg(debug_assertions)]
self.check_invariants();
}
/// Rounds this number at a particular digit position.
///
/// This uses half to even rounding, which rounds to the nearest integer and resolves ties by
/// selecting the nearest even integer to the original value.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-1.5").unwrap();
/// dec.round(0);
/// assert_eq!("-2", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.4").unwrap();
/// dec.round(0);
/// assert_eq!("0", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.5").unwrap();
/// dec.round(0);
/// assert_eq!("0", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.6").unwrap();
/// dec.round(0);
/// assert_eq!("1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("1.5").unwrap();
/// dec.round(0);
/// assert_eq!("2", dec.to_string());
/// ```
pub fn round(&mut self, position: i16) {
self.half_even_to_increment_internal(position, NoIncrement)
}
/// Returns this number rounded at a particular digit position.
///
/// This uses half to even rounding by default, which rounds to the nearest integer and
/// resolves ties by selecting the nearest even integer to the original value.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-1.5").unwrap();
/// assert_eq!("-2", dec.rounded(0).to_string());
/// let mut dec = FixedDecimal::from_str("0.4").unwrap();
/// assert_eq!("0", dec.rounded(0).to_string());
/// let mut dec = FixedDecimal::from_str("0.5").unwrap();
/// assert_eq!("0", dec.rounded(0).to_string());
/// let mut dec = FixedDecimal::from_str("0.6").unwrap();
/// assert_eq!("1", dec.rounded(0).to_string());
/// let mut dec = FixedDecimal::from_str("1.5").unwrap();
/// assert_eq!("2", dec.rounded(0).to_string());
/// ```
pub fn rounded(mut self, position: i16) -> Self {
self.round(position);
self
}
/// Rounds this number towards positive infinity at a particular digit position.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-1.5").unwrap();
/// dec.ceil(0);
/// assert_eq!("-1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.4").unwrap();
/// dec.ceil(0);
/// assert_eq!("1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.5").unwrap();
/// dec.ceil(0);
/// assert_eq!("1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.6").unwrap();
/// dec.ceil(0);
/// assert_eq!("1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("1.5").unwrap();
/// dec.ceil(0);
/// assert_eq!("2", dec.to_string());
/// ```
#[inline(never)]
pub fn ceil(&mut self, position: i16) {
self.ceil_to_increment_internal(position, NoIncrement);
}
/// Returns this number rounded towards positive infinity at a particular digit position.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let dec = FixedDecimal::from_str("-1.5").unwrap();
/// assert_eq!("-1", dec.ceiled(0).to_string());
/// let dec = FixedDecimal::from_str("0.4").unwrap();
/// assert_eq!("1", dec.ceiled(0).to_string());
/// let dec = FixedDecimal::from_str("0.5").unwrap();
/// assert_eq!("1", dec.ceiled(0).to_string());
/// let dec = FixedDecimal::from_str("0.6").unwrap();
/// assert_eq!("1", dec.ceiled(0).to_string());
/// let dec = FixedDecimal::from_str("1.5").unwrap();
/// assert_eq!("2", dec.ceiled(0).to_string());
/// ```
pub fn ceiled(mut self, position: i16) -> Self {
self.ceil(position);
self
}
/// Rounds this number away from zero at a particular digit position.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-1.5").unwrap();
/// dec.expand(0);
/// assert_eq!("-2", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.4").unwrap();
/// dec.expand(0);
/// assert_eq!("1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.5").unwrap();
/// dec.expand(0);
/// assert_eq!("1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.6").unwrap();
/// dec.expand(0);
/// assert_eq!("1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("1.5").unwrap();
/// dec.expand(0);
/// assert_eq!("2", dec.to_string());
/// ```
#[inline(never)]
pub fn expand(&mut self, position: i16) {
self.expand_to_increment_internal(position, NoIncrement)
}
/// Returns this number rounded away from zero at a particular digit position.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let dec = FixedDecimal::from_str("-1.5").unwrap();
/// assert_eq!("-2", dec.expanded(0).to_string());
/// let dec = FixedDecimal::from_str("0.4").unwrap();
/// assert_eq!("1", dec.expanded(0).to_string());
/// let dec = FixedDecimal::from_str("0.5").unwrap();
/// assert_eq!("1", dec.expanded(0).to_string());
/// let dec = FixedDecimal::from_str("0.6").unwrap();
/// assert_eq!("1", dec.expanded(0).to_string());
/// let dec = FixedDecimal::from_str("1.5").unwrap();
/// assert_eq!("2", dec.expanded(0).to_string());
/// ```
pub fn expanded(mut self, position: i16) -> Self {
self.expand(position);
self
}
/// Rounds this number towards negative infinity at a particular digit position.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-1.5").unwrap();
/// dec.floor(0);
/// assert_eq!("-2", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.4").unwrap();
/// dec.floor(0);
/// assert_eq!("0", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.5").unwrap();
/// dec.floor(0);
/// assert_eq!("0", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.6").unwrap();
/// dec.floor(0);
/// assert_eq!("0", dec.to_string());
/// let mut dec = FixedDecimal::from_str("1.5").unwrap();
/// dec.floor(0);
/// assert_eq!("1", dec.to_string());
/// ```
#[inline(never)]
pub fn floor(&mut self, position: i16) {
self.floor_to_increment_internal(position, NoIncrement);
}
/// Returns this number rounded towards negative infinity at a particular digit position.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let dec = FixedDecimal::from_str("-1.5").unwrap();
/// assert_eq!("-2", dec.floored(0).to_string());
/// let dec = FixedDecimal::from_str("0.4").unwrap();
/// assert_eq!("0", dec.floored(0).to_string());
/// let dec = FixedDecimal::from_str("0.5").unwrap();
/// assert_eq!("0", dec.floored(0).to_string());
/// let dec = FixedDecimal::from_str("0.6").unwrap();
/// assert_eq!("0", dec.floored(0).to_string());
/// let dec = FixedDecimal::from_str("1.5").unwrap();
/// assert_eq!("1", dec.floored(0).to_string());
/// ```
pub fn floored(mut self, position: i16) -> Self {
self.floor(position);
self
}
/// Rounds this number towards zero at a particular digit position.
///
/// Also see [`FixedDecimal::pad_end()`].
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-1.5").unwrap();
/// dec.trunc(0);
/// assert_eq!("-1", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.4").unwrap();
/// dec.trunc(0);
/// assert_eq!("0", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.5").unwrap();
/// dec.trunc(0);
/// assert_eq!("0", dec.to_string());
/// let mut dec = FixedDecimal::from_str("0.6").unwrap();
/// dec.trunc(0);
/// assert_eq!("0", dec.to_string());
/// let mut dec = FixedDecimal::from_str("1.5").unwrap();
/// dec.trunc(0);
/// assert_eq!("1", dec.to_string());
/// ```
#[inline(never)]
pub fn trunc(&mut self, position: i16) {
self.trunc_to_increment_internal(position, NoIncrement)
}
/// Returns this number rounded towards zero at a particular digit position.
///
/// Also see [`FixedDecimal::padded_end()`].
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
/// # use std::str::FromStr;
///
/// let dec = FixedDecimal::from_str("-1.5").unwrap();
/// assert_eq!("-1", dec.trunced(0).to_string());
/// let dec = FixedDecimal::from_str("0.4").unwrap();
/// assert_eq!("0", dec.trunced(0).to_string());
/// let dec = FixedDecimal::from_str("0.5").unwrap();
/// assert_eq!("0", dec.trunced(0).to_string());
/// let dec = FixedDecimal::from_str("0.6").unwrap();
/// assert_eq!("0", dec.trunced(0).to_string());
/// let dec = FixedDecimal::from_str("1.5").unwrap();
/// assert_eq!("1", dec.trunced(0).to_string());
/// ```
pub fn trunced(mut self, position: i16) -> Self {
self.trunc(position);
self
}
/// Rounds this number at a particular digit position, using the specified rounding mode.
///
/// # Examples
///
/// ```
/// use fixed_decimal::{FixedDecimal, RoundingMode};
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-3.5").unwrap();
/// dec.round_with_mode(0, RoundingMode::Floor);
/// assert_eq!("-4", dec.to_string());
/// let mut dec = FixedDecimal::from_str("-3.5").unwrap();
/// dec.round_with_mode(0, RoundingMode::Ceil);
/// assert_eq!("-3", dec.to_string());
/// let mut dec = FixedDecimal::from_str("5.455").unwrap();
/// dec.round_with_mode(-2, RoundingMode::HalfExpand);
/// assert_eq!("5.46", dec.to_string());
/// let mut dec = FixedDecimal::from_str("-7.235").unwrap();
/// dec.round_with_mode(-2, RoundingMode::HalfTrunc);
/// assert_eq!("-7.23", dec.to_string());
/// let mut dec = FixedDecimal::from_str("9.75").unwrap();
/// dec.round_with_mode(-1, RoundingMode::HalfEven);
/// assert_eq!("9.8", dec.to_string());
/// ```
pub fn round_with_mode(&mut self, position: i16, mode: RoundingMode) {
match mode {
RoundingMode::Ceil => self.ceil_to_increment_internal(position, NoIncrement),
RoundingMode::Expand => self.expand_to_increment_internal(position, NoIncrement),
RoundingMode::Floor => self.floor_to_increment_internal(position, NoIncrement),
RoundingMode::Trunc => self.trunc_to_increment_internal(position, NoIncrement),
RoundingMode::HalfCeil => self.half_ceil_to_increment_internal(position, NoIncrement),
RoundingMode::HalfExpand => {
self.half_expand_to_increment_internal(position, NoIncrement)
}
RoundingMode::HalfFloor => self.half_floor_to_increment_internal(position, NoIncrement),
RoundingMode::HalfTrunc => self.half_trunc_to_increment_internal(position, NoIncrement),
RoundingMode::HalfEven => self.half_even_to_increment_internal(position, NoIncrement),
}
}
/// Returns this number rounded at a particular digit position, using the specified rounding mode.
///
/// # Examples
///
/// ```
/// use fixed_decimal::{FixedDecimal, RoundingMode};
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-3.5").unwrap();
/// assert_eq!(
/// "-4",
/// dec.rounded_with_mode(0, RoundingMode::Floor).to_string()
/// );
/// let mut dec = FixedDecimal::from_str("-3.5").unwrap();
/// assert_eq!(
/// "-3",
/// dec.rounded_with_mode(0, RoundingMode::Ceil).to_string()
/// );
/// let mut dec = FixedDecimal::from_str("5.455").unwrap();
/// assert_eq!(
/// "5.46",
/// dec.rounded_with_mode(-2, RoundingMode::HalfExpand)
/// .to_string()
/// );
/// let mut dec = FixedDecimal::from_str("-7.235").unwrap();
/// assert_eq!(
/// "-7.23",
/// dec.rounded_with_mode(-2, RoundingMode::HalfTrunc)
/// .to_string()
/// );
/// let mut dec = FixedDecimal::from_str("9.75").unwrap();
/// assert_eq!(
/// "9.8",
/// dec.rounded_with_mode(-1, RoundingMode::HalfEven)
/// .to_string()
/// );
/// ```
pub fn rounded_with_mode(mut self, position: i16, mode: RoundingMode) -> Self {
self.round_with_mode(position, mode);
self
}
/// Rounds this number at a particular digit position and increment, using the specified rounding mode.
///
/// # Examples
///
/// ```
/// use fixed_decimal::{FixedDecimal, RoundingIncrement, RoundingMode};
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-3.5").unwrap();
/// dec.round_with_mode_and_increment(
/// 0,
/// RoundingMode::Floor,
/// RoundingIncrement::MultiplesOf1,
/// );
/// assert_eq!("-4", dec.to_string());
/// let mut dec = FixedDecimal::from_str("-3.59").unwrap();
/// dec.round_with_mode_and_increment(
/// -1,
/// RoundingMode::Ceil,
/// RoundingIncrement::MultiplesOf2,
/// );
/// assert_eq!("-3.4", dec.to_string());
/// let mut dec = FixedDecimal::from_str("5.455").unwrap();
/// dec.round_with_mode_and_increment(
/// -2,
/// RoundingMode::HalfExpand,
/// RoundingIncrement::MultiplesOf5,
/// );
/// assert_eq!("5.45", dec.to_string());
/// let mut dec = FixedDecimal::from_str("-7.235").unwrap();
/// dec.round_with_mode_and_increment(
/// -2,
/// RoundingMode::HalfTrunc,
/// RoundingIncrement::MultiplesOf25,
/// );
/// assert_eq!("-7.25", dec.to_string());
/// let mut dec = FixedDecimal::from_str("9.75").unwrap();
/// dec.round_with_mode_and_increment(
/// -1,
/// RoundingMode::HalfEven,
/// RoundingIncrement::MultiplesOf5,
/// );
/// assert_eq!("10.0", dec.to_string());
/// ```
pub fn round_with_mode_and_increment(
&mut self,
position: i16,
mode: RoundingMode,
increment: RoundingIncrement,
) {
match mode {
RoundingMode::Ceil => self.ceil_to_increment_internal(position, increment),
RoundingMode::Expand => self.expand_to_increment_internal(position, increment),
RoundingMode::Floor => self.floor_to_increment_internal(position, increment),
RoundingMode::Trunc => self.trunc_to_increment_internal(position, increment),
RoundingMode::HalfCeil => self.half_ceil_to_increment_internal(position, increment),
RoundingMode::HalfExpand => self.half_expand_to_increment_internal(position, increment),
RoundingMode::HalfFloor => self.half_floor_to_increment_internal(position, increment),
RoundingMode::HalfTrunc => self.half_trunc_to_increment_internal(position, increment),
RoundingMode::HalfEven => self.half_even_to_increment_internal(position, increment),
}
}
/// Returns this number rounded at a particular digit position and increment, using the specified rounding mode.
///
/// # Examples
///
/// ```
/// use fixed_decimal::{FixedDecimal, RoundingIncrement, RoundingMode};
/// # use std::str::FromStr;
///
/// let mut dec = FixedDecimal::from_str("-3.5").unwrap();
/// assert_eq!(
/// "-4",
/// dec.rounded_with_mode_and_increment(
/// 0,
/// RoundingMode::Floor,
/// RoundingIncrement::MultiplesOf1
/// )
/// .to_string()
/// );
/// let mut dec = FixedDecimal::from_str("-3.59").unwrap();
/// assert_eq!(
/// "-3.4",
/// dec.rounded_with_mode_and_increment(
/// -1,
/// RoundingMode::Ceil,
/// RoundingIncrement::MultiplesOf2
/// )
/// .to_string()
/// );
/// let mut dec = FixedDecimal::from_str("5.455").unwrap();
/// assert_eq!(
/// "5.45",
/// dec.rounded_with_mode_and_increment(
/// -2,
/// RoundingMode::HalfExpand,
/// RoundingIncrement::MultiplesOf5
/// )
/// .to_string()
/// );
/// let mut dec = FixedDecimal::from_str("-7.235").unwrap();
/// assert_eq!(
/// "-7.25",
/// dec.rounded_with_mode_and_increment(
/// -2,
/// RoundingMode::HalfTrunc,
/// RoundingIncrement::MultiplesOf25
/// )
/// .to_string()
/// );
/// let mut dec = FixedDecimal::from_str("9.75").unwrap();
/// assert_eq!(
/// "10.0",
/// dec.rounded_with_mode_and_increment(
/// -1,
/// RoundingMode::HalfEven,
/// RoundingIncrement::MultiplesOf5
/// )
/// .to_string()
/// );
/// ```
pub fn rounded_with_mode_and_increment(
mut self,
position: i16,
mode: RoundingMode,
increment: RoundingIncrement,
) -> Self {
self.round_with_mode_and_increment(position, mode, increment);
self
}
fn ceil_to_increment_internal<R: IncrementLike>(&mut self, position: i16, increment: R) {
if self.sign == Sign::Negative {
self.trunc_to_increment_internal(position, increment);
return;
}
self.expand_to_increment_internal(position, increment);
}
fn expand_to_increment_internal<R: IncrementLike>(
&mut self,
position: i16,
inner_increment: R,
) {
/// Modifies `number` to signal that an overflow happened.
fn overflow(number: &mut FixedDecimal) {
// TODO(#2297): Decide on behavior here
number.digits.clear();
number.magnitude = 0;
#[cfg(debug_assertions)]
number.check_invariants();
}
let increment = Some(inner_increment);
// 1. Set upper and lower magnitude
self.lower_magnitude = cmp::min(position, 0);
match position.cmp(&i16::MIN) {
// Don't return if the increment is not one, because we
// also need to round to the next increment if necessary.
Ordering::Equal if increment == R::MULTIPLES_OF_1 => {
// Nothing more to do
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
Ordering::Greater => {
self.upper_magnitude = cmp::max(self.upper_magnitude, position - 1);
}
_ => {
// Ordering::Less is unreachable, and Ordering::Equal needs to apply roundings
// when the increment is not equal to 1.
// We don't override `self.upper_magnitude` because `self.upper_magnitude` is
// always equal or bigger than `i16::MIN`.
}
}
// 2. If the number is already rounded, exit early.
if self.is_rounded(position, inner_increment) {
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
// 3. If the rounding position is *in the middle* of the nonzero digits
if position <= self.magnitude {
// 3a. Calculate the number of digits to retain and remove the rest
let digits_to_retain = crate::ops::i16_abs_sub(self.magnitude, position) + 1;
self.digits.truncate(digits_to_retain as usize);
// 3b. Handle the last digit considering the increment.
let iter = match increment {
x if x == R::MULTIPLES_OF_1 => {
// Can just execute the algorithm normally.
self.digits.iter_mut().rev().enumerate()
}
x if x == R::MULTIPLES_OF_2 => {
let mut iter = self.digits.iter_mut().rev().enumerate();
// Must round the last digit to the next increment.
let Some((_, digit)) = iter.next() else {
debug_assert!(false, "`self.digits` should have at least a digit");
return;
};
// Equivalent to (n + 2 / 2) * 2, which expands to the next
// multiple of two
*digit = (*digit + 2) & 0xFE;
if *digit < 10 {
// Early returns if the expansion didn't generate a remainder.
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
iter
}
x if x == R::MULTIPLES_OF_5 => {
let mut iter = self.digits.iter_mut().rev().enumerate();
// Must round the last digit to the next increment.
let Some((_, digit)) = iter.next() else {
debug_assert!(false, "`self.digits` should have at least a digit");
return;
};
if *digit < 5 {
*digit = 5;
// Early return since the expansion didn't generate a remainder.
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
*digit = 10;
iter
}
x if x == R::MULTIPLES_OF_25 => {
// Extend the digits to have the correct
// number of trailing zeroes.
self.digits.resize(digits_to_retain as usize, 0);
let Some((last_digit, digits)) = self.digits.split_last_mut() else {
debug_assert!(false, "`self.digits` should have at least a digit");
return;
};
let Some((second_last_digit, _)) = digits.split_last_mut() else {
// The number has no other digits aside from the last.
// We need to manually increment the number to 25
if self.magnitude == i16::MAX {
overflow(self);
return;
}
self.digits.clear();
self.digits.extend_from_slice(&[2, 5]);
self.magnitude += 1;
self.upper_magnitude = cmp::max(self.upper_magnitude, self.magnitude);
#[cfg(debug_assertions)]
self.check_invariants();
return;
};
let number = *second_last_digit * 10 + *last_digit;
if number < 75 {
// We can return directly if the number won't expand
// to 100.
if number < 25 {
*second_last_digit = 2;
*last_digit = 5;
} else if number < 50 {
*second_last_digit = 5;
self.digits.pop();
} else {
*second_last_digit = 7;
*last_digit = 5;
}
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
// The number reached 100. Continue the algorithm but with the
// last two digits removed from the iterator.
*second_last_digit = 10;
*last_digit = 10;
let mut iter = self.digits.iter_mut().rev().enumerate();
// Remove the last two items that were already handled.
iter.next();
iter.next();
iter
}
_ => {
debug_assert!(false, "INCREMENT should be 1, 2, 5, or 25");
return;
}
};
// 3b. Increment the rightmost remaining digit since we are rounding up; this might
// require bubbling the addition to higher magnitudes, like 199 + 1 = 200
for (zero_count, digit) in iter {
*digit += 1;
if *digit < 10 {
self.digits.truncate(self.digits.len() - zero_count);
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
}
// 3c. If we get here, the mantissa is fully saturated.
// Clear the saturated mantissa and replace everything with a single 1.
if self.magnitude == i16::MAX {
overflow(self);
return;
}
self.digits.clear();
self.digits.push(1);
self.magnitude += 1;
self.upper_magnitude = cmp::max(self.upper_magnitude, self.magnitude);
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
// 4. If the rounding position is *above* the leftmost nonzero digit,
// set the value to the next increment at the appropriate position.
// Check if we have enough available spaces to push a `25` at the start.
if increment == R::MULTIPLES_OF_25 && position == i16::MAX {
// Need an extra digit to push a 25, which we don't have.
overflow(self);
return;
}
self.digits.clear();
// We need to push the next multiple of the increment,
// and we also need to adjust the magnitude to the
// new upper magnitude.
let increment_digits = match increment {
x if x == R::MULTIPLES_OF_1 => [1].as_slice(),
x if x == R::MULTIPLES_OF_2 => [2].as_slice(),
x if x == R::MULTIPLES_OF_5 => [5].as_slice(),
x if x == R::MULTIPLES_OF_25 => [2, 5].as_slice(),
_ => {
debug_assert!(false, "INCREMENT should be 1, 2, 5, or 25");
return;
}
};
self.digits.extend_from_slice(increment_digits);
// Could also be derived from `increment_digits.len() - 1`, but it makes
// the logic a bit harder to follow.
self.magnitude = if increment == R::MULTIPLES_OF_25 {
position + 1
} else {
position
};
self.upper_magnitude = cmp::max(self.upper_magnitude, self.magnitude);
#[cfg(debug_assertions)]
self.check_invariants();
}
fn floor_to_increment_internal<R: IncrementLike>(&mut self, position: i16, increment: R) {
if self.sign == Sign::Negative {
self.expand_to_increment_internal(position, increment);
return;
}
self.trunc_to_increment_internal(position, increment);
}
fn trunc_to_increment_internal<R: IncrementLike>(&mut self, position: i16, inner_increment: R) {
let increment = Some(inner_increment);
// 1. Set upper and lower magnitude
self.lower_magnitude = cmp::min(position, 0);
match position.cmp(&i16::MIN) {
// Don't return if the increment is not one, because we
// also need to round to the next increment if necessary.
Ordering::Equal if increment == R::MULTIPLES_OF_1 => {
// Nothing more to do
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
Ordering::Greater => {
self.upper_magnitude = cmp::max(self.upper_magnitude, position - 1);
}
_ => {
// Ordering::Less is unreachable, and Ordering::Equal needs to apply roundings
// when the increment is not equal to 1.
// We don't override `self.upper_magnitude` because `self.upper_magnitude` is
// always equal or bigger than `i16::MIN`.
}
}
// 2. If the number is already rounded, exit early.
if self.is_rounded(position, inner_increment) {
#[cfg(debug_assertions)]
self.check_invariants();
return;
}
// 3. If the rounding position is *in the middle* of the nonzero digits
if position <= self.magnitude {
// 3a. Calculate the number of digits to retain and remove the rest
let digits_to_retain = crate::ops::i16_abs_sub(self.magnitude, position) + 1;
self.digits.truncate(digits_to_retain as usize);
// 3b. Truncate to the previous multiple.
match increment {
x if x == R::MULTIPLES_OF_1 => {
// No need to do more work, trailing zeroes are removed below.
}
x if x == R::MULTIPLES_OF_2 => {
let Some(last_digit) = self.digits.last_mut() else {
debug_assert!(false, "`self.digits` should have at least a digit");
return;
};
// Equivalent to (n / 2) * 2, which truncates to the previous
// multiple of two
*last_digit &= 0xFE;
}
x if x == R::MULTIPLES_OF_5 => {
let Some(last_digit) = self.digits.last_mut() else {
debug_assert!(false, "`self.digits` should have at least a digit");
return;
};
*last_digit = if *last_digit < 5 { 0 } else { 5 };
}
x if x == R::MULTIPLES_OF_25 => {
// Extend with zeroes to have the correct trailing digits.
self.digits.resize(digits_to_retain as usize, 0);
let Some((last_digit, digits)) = self.digits.split_last_mut() else {
debug_assert!(false, "`self.digits` should have at least a digit");
return;
};
if let Some(second_last_digit) = digits.last_mut() {
let number = *second_last_digit * 10 + *last_digit;
// Trailing zeroes will be removed below. We can defer
// the deletion to there.
(*second_last_digit, *last_digit) = if number < 25 {
(0, 0)
} else if number < 50 {
(2, 5)
} else if number < 75 {
(5, 0)
} else {
(7, 5)
};
} else {
// The number has no other digits aside from the last,
// making it strictly less than 25.
*last_digit = 0;
};
}
_ => {
debug_assert!(false, "INCREMENT should be 1, 2, 5, or 25");
return;
}
}
// 3c. Handle the case where `digits` has trailing zeroes after
// truncating to the previous multiple.
let position_last_nonzero_digit = self
.digits
.iter()
.rposition(|x| *x != 0)
.map(|x| x + 1)
.unwrap_or(0);
self.digits.truncate(position_last_nonzero_digit);
// 3d. If `digits` had only trailing zeroes after truncating,
// reset to zero.
if self.digits.is_empty() {
self.magnitude = 0;
}
} else {
// 4. If the rounding position is *above* the leftmost nonzero
// digit, set to zero
self.digits.clear();
self.magnitude = 0;
}
#[cfg(debug_assertions)]
self.check_invariants();
}
fn half_ceil_to_increment_internal<R: IncrementLike>(&mut self, position: i16, increment: R) {
if self.sign == Sign::Negative {
self.half_trunc_to_increment_internal(position, increment);
return;
}
self.half_expand_to_increment_internal(position, increment);
}
fn half_even_to_increment_internal<R: IncrementLike>(&mut self, position: i16, increment: R) {
let should_expand = match self.half_increment_at_magnitude(position, increment) {
Ordering::Greater => true,
Ordering::Less => false,
Ordering::Equal => match Some(increment) {
x if x == R::MULTIPLES_OF_1 => {
// Expand if odd, truncate if even.
self.digit_at(position) & 0x01 == 1
}
x if x == R::MULTIPLES_OF_2 => {
let current_digit = self.digit_at(position);
let previous_digit = self.digit_at_previous_position(position);
let full = previous_digit * 10 + current_digit;
// This essentially expands to the "even" increments,
// or the increments that are in the even places on the
// rounding range: [0, 4, 8, 12, 16, 20, ...].
// Equivalent to `(full / 2) is odd`.
//
// Examples:
// - 37 should truncate, since 37 % 20 = 17, which truncates to 16.
// 37 / 2 = 18, which is even.
// - 83 should expand, since 83 % 20 = 3, which expands to 4.
// 83 / 2 = 41, which is odd.
(full >> 1) & 0x01 == 1
}
x if x == R::MULTIPLES_OF_5 => {
// Expand 7.5 to 10 and truncate 2.5 to 0.
self.digit_at(position) == 7
}
x if x == R::MULTIPLES_OF_25 => {
let current_digit = self.digit_at(position);
let prev_digit = self.digit_at_previous_position(position);
let full_number = prev_digit * 10 + current_digit;
// Expand `37.5` to 50 and `87.5` to 100.
// Truncate `12.5` to 0 and `62.5` to 50.
full_number == 37 || full_number == 87
}
_ => {
debug_assert!(false, "INCREMENT should be 1, 2, 5, or 25");
return;
}
},
};
if should_expand {
self.expand_to_increment_internal(position, increment);
} else {
self.trunc_to_increment_internal(position, increment);
}
}
fn half_expand_to_increment_internal<R: IncrementLike>(&mut self, position: i16, increment: R) {
// Only truncate if the rounding position is strictly less than the half increment.
// At the half increment, `half_expand` always expands.
let should_trunc = self.half_increment_at_magnitude(position, increment) == Ordering::Less;
if should_trunc {
self.trunc_to_increment_internal(position, increment);
} else {
self.expand_to_increment_internal(position, increment);
}
}
fn half_floor_to_increment_internal<R: IncrementLike>(&mut self, position: i16, increment: R) {
if self.sign == Sign::Negative {
self.half_expand_to_increment_internal(position, increment);
return;
}
self.half_trunc_to_increment_internal(position, increment);
}
fn half_trunc_to_increment_internal<R: IncrementLike>(&mut self, position: i16, increment: R) {
// Only expand if the rounding position is strictly greater than the half increment.
// At the half increment, `half_trunc` always truncates.
let should_expand =
self.half_increment_at_magnitude(position, increment) == Ordering::Greater;
if should_expand {
self.expand_to_increment_internal(position, increment);
} else {
self.trunc_to_increment_internal(position, increment);
}
}
/// Concatenate another `FixedDecimal` into the end of this `FixedDecimal`.
///
/// All nonzero digits in `other` must have lower magnitude than nonzero digits in `self`.
/// If the two decimals represent overlapping ranges of magnitudes, an `Err` is returned,
/// containing (self, other).
///
/// The magnitude range of `self` will be increased if `other` covers a larger range.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let integer = FixedDecimal::from(123);
/// let fraction = FixedDecimal::from(456).multiplied_pow10(-3);
///
/// let result = integer.concatenated_end(fraction).expect("nonoverlapping");
///
/// assert_eq!("123.456", result.to_string());
/// ```
pub fn concatenated_end(
mut self,
other: FixedDecimal,
) -> Result<Self, (FixedDecimal, FixedDecimal)> {
match self.concatenate_end(other) {
Ok(()) => Ok(self),
Err(err) => Err((self, err)),
}
}
/// Concatenate another `FixedDecimal` into the end of this `FixedDecimal`.
///
/// All nonzero digits in `other` must have lower magnitude than nonzero digits in `self`.
/// If the two decimals represent overlapping ranges of magnitudes, an `Err` is returned,
/// passing ownership of `other` back to the caller.
///
/// The magnitude range of `self` will be increased if `other` covers a larger range.
///
/// # Examples
///
/// ```
/// use fixed_decimal::FixedDecimal;
///
/// let mut integer = FixedDecimal::from(123);
/// let fraction = FixedDecimal::from(456).multiplied_pow10(-3);
///
/// integer.concatenate_end(fraction);
///
/// assert_eq!("123.456", integer.to_string());
/// ```
pub fn concatenate_end(&mut self, other: FixedDecimal) -> Result<(), FixedDecimal> {
let self_right = self.nonzero_magnitude_end();
let other_left = other.nonzero_magnitude_start();
if self.is_zero() {
// Operation will succeed. We can move the digits into self.
self.digits = other.digits;
self.magnitude = other.magnitude;
} else if other.is_zero() {
// No changes to the digits are necessary.
} else if self_right <= other_left {
// Illegal: `other` is not to the right of `self`
return Err(other);
} else {
// Append the digits from other to the end of self
let inner_zeroes = crate::ops::i16_abs_sub(self_right, other_left) as usize - 1;
self.append_digits(inner_zeroes, &other.digits);
}
self.upper_magnitude = cmp::max(self.upper_magnitude, other.upper_magnitude);
self.lower_magnitude = cmp::min(self.lower_magnitude, other.lower_magnitude);
#[cfg(debug_assertions)]
self.check_invariants();
Ok(())
}
/// Appends a slice of digits to the end of `self.digits` with optional inner zeroes.
///
/// This function does not check invariants.
fn append_digits(&mut self, inner_zeroes: usize, new_digits: &[u8]) {
let new_len = self.digits.len() + inner_zeroes;
self.digits.resize_with(new_len, || 0);
self.digits.extend_from_slice(new_digits);
}
/// Assert that the invariants among struct fields are enforced. Returns true if all are okay.
/// Call this in any method that mutates the struct fields.
///
/// Example: `debug_assert!(self.check_invariants())`
#[cfg(debug_assertions)]
#[allow(clippy::indexing_slicing)]
fn check_invariants(&self) {
// magnitude invariants:
debug_assert!(
self.upper_magnitude >= self.magnitude,
"Upper magnitude too small {self:?}"
);
debug_assert!(
self.lower_magnitude <= self.magnitude,
"Lower magnitude too large {self:?}"
);
debug_assert!(
self.upper_magnitude >= 0,
"Upper magnitude below zero {self:?}"
);
debug_assert!(
self.lower_magnitude <= 0,
"Lower magnitude above zero {self:?}",
);
// digits invariants:
debug_assert!(
self.digits.len() <= (self.magnitude as i32 - self.lower_magnitude as i32 + 1) as usize,
"{self:?}"
);
if !self.digits.is_empty() {
debug_assert_ne!(self.digits[0], 0, "Starts with a zero {self:?}");
debug_assert_ne!(
self.digits[self.digits.len() - 1],
0,
"Ends with a zero {self:?}",
);
} else {
debug_assert_eq!(self.magnitude, 0);
}
}
}
/// Render the `FixedDecimal` as a string of ASCII digits with a possible decimal point.
///
/// # Examples
///
/// ```
/// # use fixed_decimal::FixedDecimal;
/// # use writeable::assert_writeable_eq;
/// #
/// assert_writeable_eq!(FixedDecimal::from(42), "42");
/// ```
impl writeable::Writeable for FixedDecimal {
fn write_to<W: fmt::Write + ?Sized>(&self, sink: &mut W) -> fmt::Result {
match self.sign {
Sign::Negative => sink.write_char('-')?,
Sign::Positive => sink.write_char('+')?,
Sign::None => (),
}
for m in self.magnitude_range().rev() {
if m == -1 {
sink.write_char('.')?;
}
let d = self.digit_at(m);
sink.write_char((b'0' + d) as char)?;
}
Ok(())
}
fn writeable_length_hint(&self) -> writeable::LengthHint {
writeable::LengthHint::exact(1)
+ ((self.upper_magnitude as i32 - self.lower_magnitude as i32) as usize)
+ (self.sign != Sign::None) as usize
+ (self.lower_magnitude < 0) as usize
}
}
writeable::impl_display_with_writeable!(FixedDecimal);
impl FixedDecimal {
#[inline]
/// Parses a [`FixedDecimal`].
pub fn try_from_str(s: &str) -> Result<Self, ParseError> {
Self::try_from_utf8(s.as_bytes())
}
pub fn try_from_utf8(input_str: &[u8]) -> Result<Self, ParseError> {
// input_str: the input string
// no_sign_str: the input string when the sign is removed from it
if input_str.is_empty() {
return Err(ParseError::Syntax);
}
#[allow(clippy::indexing_slicing)] // The string is not empty.
let sign = match input_str[0] {
b'-' => Sign::Negative,
b'+' => Sign::Positive,
_ => Sign::None,
};
#[allow(clippy::indexing_slicing)] // The string is not empty.
let no_sign_str = if sign == Sign::None {
input_str
} else {
&input_str[1..]
};
if no_sign_str.is_empty() {
return Err(ParseError::Syntax);
}
// Compute length of each string once and store it, so if you use that multiple times,
// you don't compute it multiple times
// has_dot: shows if your input has dot in it
// has_exponent: shows if your input has an exponent in it
// dot_index: gives the index of dot (after removing the sign) -- equal to length of
// the no_sign_str if there is no dot
// exponent_index: gives the index of exponent (after removing the sign) -- equal to length of
// the no_sign_str if there is no dot
let mut has_dot = false;
let mut has_exponent = false;
let mut dot_index = no_sign_str.len();
let mut exponent_index = no_sign_str.len();
// The following loop computes has_dot, dot_index, and also checks to see if all
// characters are digits and if you have at most one dot
// Note: Input of format 111_123 is detected as syntax error here
// Note: Input starting or ending with a dot is detected as syntax error here (Ex: .123, 123.)
for (i, c) in no_sign_str.iter().enumerate() {
if *c == b'.' {
if has_dot || has_exponent {
// multiple dots or dots after the exponent
return Err(ParseError::Syntax);
}
dot_index = i;
has_dot = true;
// We do support omitting the leading zero,
// but not trailing decimal points
if i == no_sign_str.len() - 1 {
return Err(ParseError::Syntax);
}
} else if *c == b'e' || *c == b'E' {
if has_exponent {
// multiple exponents
return Err(ParseError::Syntax);
}
exponent_index = i;
has_exponent = true;
if i == 0 || i == no_sign_str.len() - 1 {
return Err(ParseError::Syntax);
}
} else if *c == b'-' {
// Allow a single minus sign after the exponent
if has_exponent && exponent_index == i - 1 {
continue;
} else {
return Err(ParseError::Syntax);
}
} else if *c < b'0' || *c > b'9' {
return Err(ParseError::Syntax);
}
}
// The string without the exponent (or sign)
// We do the bulk of the calculation on this string,
// and extract the exponent at the end
#[allow(clippy::indexing_slicing)] // exponent_index comes from enumerate
let no_exponent_str = &no_sign_str[..exponent_index];
// If there was no dot, truncate the dot index
if dot_index > exponent_index {
dot_index = exponent_index;
}
// defining the output dec here and set its sign
let mut dec = Self {
sign,
..Default::default()
};
// no_dot_str_len: shows length of the string after removing the dot
let mut no_dot_str_len = no_exponent_str.len();
if has_dot {
no_dot_str_len -= 1;
}
// Computing DecimalFixed.upper_magnitude
// We support strings like `0.x` and `.x`. The upper magnitude
// is always one less than the position of the dot, except in the case where
// the 0 is omitted; when dot_index = 0. We use saturating_sub to set
// magnitude to 0 in that case.
let temp_upper_magnitude = dot_index.saturating_sub(1);
if temp_upper_magnitude > i16::MAX as usize {
return Err(ParseError::Limit);
}
dec.upper_magnitude = temp_upper_magnitude as i16;
// Computing DecimalFixed.lower_magnitude
let temp_lower_magnitude = no_dot_str_len - dot_index;
if temp_lower_magnitude > (i16::MIN as u16) as usize {
return Err(ParseError::Limit);
}
dec.lower_magnitude = (temp_lower_magnitude as i16).wrapping_neg();
// leftmost_digit: index of the first non-zero digit
// rightmost_digit: index of the first element after the last non-zero digit
// Example:
// input string leftmost_digit rightmost_digit
// 00123000 2 5
// 0.0123000 3 6
// 001.23000 2 6
// 001230.00 2 5
// Compute leftmost_digit
let leftmost_digit = no_exponent_str
.iter()
.position(|c| *c != b'.' && *c != b'0');
// If the input only has zeros (like 000, 00.0, -00.000) we handle the situation here
// by returning the dec and don't running the rest of the code
let leftmost_digit = if let Some(leftmost_digit) = leftmost_digit {
leftmost_digit
} else {
return Ok(dec);
};
// Else if the input is not all zeros, we compute its magnitude:
// Note that we can cast with "as" here because lower and upper magnitude have been checked already
let mut temp_magnitude = ((dot_index as i32) - (leftmost_digit as i32) - 1i32) as i16;
if dot_index < leftmost_digit {
temp_magnitude += 1;
}
dec.magnitude = temp_magnitude;
// Compute the index where the rightmost_digit ends
let rightmost_digit_end = no_exponent_str
.iter()
.rposition(|c| *c != b'.' && *c != b'0')
.map(|p| p + 1)
.unwrap_or(no_exponent_str.len());
// digits_str_len: shows the length of digits (Ex. 0012.8900 --> 4)
let mut digits_str_len = rightmost_digit_end - leftmost_digit;
if leftmost_digit < dot_index && dot_index < rightmost_digit_end {
digits_str_len -= 1;
}
// Constructing DecimalFixed.digits
#[allow(clippy::indexing_slicing)]
// leftmost_digit and rightmost_digit_end come from Iterator::position and Iterator::rposition.
let v: SmallVec<[u8; 8]> = no_exponent_str[leftmost_digit..rightmost_digit_end]
.iter()
.filter(|c| **c != b'.')
.map(|c| c - b'0')
.collect();
let v_len = v.len();
debug_assert_eq!(v_len, digits_str_len);
dec.digits = v;
// Extract the exponent part
if has_exponent {
let mut pow = 0;
let mut pos_neg = 1;
#[allow(clippy::indexing_slicing)]
// exponent_index is exist, then exponent_index + 1 will equal at most no_sign_str.len().
for digit in &no_sign_str[exponent_index + 1..] {
if *digit == b'-' {
pos_neg = -1;
continue;
}
pow *= 10;
pow += (digit - b'0') as i16;
}
dec.multiply_pow10(pos_neg * pow);
// Clean up magnitude after multiplication
if dec.magnitude > 0 {
dec.upper_magnitude = dec.magnitude;
}
let neg_mag = dec.magnitude - dec.digits.len() as i16 + 1;
if neg_mag < 0 {
dec.lower_magnitude = neg_mag;
}
}
Ok(dec)
}
}
impl FromStr for FixedDecimal {
type Err = ParseError;
fn from_str(s: &str) -> Result<Self, Self::Err> {
Self::try_from_str(s)
}
}
/// Specifies the precision of a floating point value when constructing a FixedDecimal.
///
/// IEEE 754 is a representation of a point on the number line. On the other hand, FixedDecimal
/// specifies not only the point on the number line but also the precision of the number to a
/// specific power of 10. This enum augments a floating-point value with the additional
/// information required by FixedDecimal.
#[non_exhaustive]
#[cfg(feature = "ryu")]
#[derive(Debug, Clone, Copy)]
pub enum FloatPrecision {
/// Specify that the floating point number is integer-valued.
///
/// If the floating point is not actually integer-valued, an error will be returned.
Integer,
/// Specify that the floating point number is precise to a specific power of 10.
/// The number may be rounded or trailing zeros may be added as necessary.
Magnitude(i16),
/// Specify that the floating point number is precise to a specific number of significant digits.
/// The number may be rounded or trailing zeros may be added as necessary.
///
/// The number requested may not be zero
SignificantDigits(u8),
/// Specify that the floating point number is precise to the maximum representable by IEEE.
///
/// This results in a FixedDecimal having enough digits to recover the original floating point
/// value, with no trailing zeros.
RoundTrip,
}
#[cfg(feature = "ryu")]
impl FixedDecimal {
/// Constructs a [`FixedDecimal`] from an f64.
///
/// Since f64 values do not carry a notion of their precision, the second argument to this
/// function specifies the type of precision associated with the f64. For more information,
/// see [`FloatPrecision`].
///
/// This function uses `ryu`, which is an efficient double-to-string algorithm, but other
/// implementations may yield higher performance; for more details, see
/// [icu4x#166](https://github.com/unicode-org/icu4x/issues/166).
///
/// This function can be made available with the `"ryu"` Cargo feature.
///
/// ```rust
/// use fixed_decimal::{FixedDecimal, FloatPrecision};
/// use writeable::assert_writeable_eq;
///
/// let decimal =
/// FixedDecimal::try_from_f64(-5.1, FloatPrecision::Magnitude(-2))
/// .expect("Finite quantity with limited precision");
/// assert_writeable_eq!(decimal, "-5.10");
///
/// let decimal =
/// FixedDecimal::try_from_f64(0.012345678, FloatPrecision::RoundTrip)
/// .expect("Finite quantity");
/// assert_writeable_eq!(decimal, "0.012345678");
///
/// let decimal =
/// FixedDecimal::try_from_f64(12345678000., FloatPrecision::Integer)
/// .expect("Finite, integer-valued quantity");
/// assert_writeable_eq!(decimal, "12345678000");
/// ```
///
/// Negative zero is supported.
///
/// ```rust
/// use fixed_decimal::{FixedDecimal, FloatPrecision};
/// use writeable::assert_writeable_eq;
///
/// // IEEE 754 for floating point defines the sign bit separate
/// // from the mantissa and exponent, allowing for -0.
/// let negative_zero =
/// FixedDecimal::try_from_f64(-0.0, FloatPrecision::Integer)
/// .expect("Negative zero");
/// assert_writeable_eq!(negative_zero, "-0");
/// ```
pub fn try_from_f64(float: f64, precision: FloatPrecision) -> Result<Self, LimitError> {
let mut decimal = Self::new_from_f64_raw(float)?;
let n_digits = decimal.digits.len();
// magnitude of the lowest digit in self.digits
let lowest_magnitude = decimal.magnitude - n_digits as i16 + 1;
// ryū will usually tack on a `.0` to integers which gets included when parsing.
// Explicitly remove it before doing anything else
if lowest_magnitude >= 0 && decimal.lower_magnitude < 0 {
decimal.lower_magnitude = 0;
}
match precision {
FloatPrecision::RoundTrip => (),
FloatPrecision::Integer => {
if lowest_magnitude < 0 {
return Err(LimitError);
}
}
FloatPrecision::Magnitude(mag) => {
decimal.round(mag);
}
FloatPrecision::SignificantDigits(sig) => {
if sig == 0 {
return Err(LimitError);
}
let position = decimal.magnitude - (sig as i16) + 1;
let old_magnitude = decimal.magnitude;
decimal.round(position);
// This means the significant digits has been increased by 1.
if decimal.magnitude > old_magnitude {
decimal.lower_magnitude = cmp::min(0, position + 1);
}
}
}
#[cfg(debug_assertions)]
decimal.check_invariants();
Ok(decimal)
}
/// Internal function for parsing directly from floats using ryū
fn new_from_f64_raw(float: f64) -> Result<Self, LimitError> {
if !float.is_finite() {
return Err(LimitError);
}
// note: this does not heap allocate
let mut buf = ryu::Buffer::new();
let formatted = buf.format_finite(float);
Self::from_str(formatted).map_err(|e| match e {
ParseError::Limit => LimitError,
ParseError::Syntax => unreachable!("ryu produces correct syntax"),
})
}
}
#[cfg(feature = "ryu")]
#[test]
fn test_float() {
#[derive(Debug)]
struct TestCase {
pub input: f64,
pub precision: FloatPrecision,
pub expected: &'static str,
}
let cases = [
TestCase {
input: 1.234567,
precision: FloatPrecision::RoundTrip,
expected: "1.234567",
},
TestCase {
input: 888999.,
precision: FloatPrecision::RoundTrip,
expected: "888999",
},
// HalfExpand tests
TestCase {
input: 1.234567,
precision: FloatPrecision::Magnitude(-2),
expected: "1.23",
},
TestCase {
input: 1.235567,
precision: FloatPrecision::Magnitude(-2),
expected: "1.24",
},
TestCase {
input: 1.2002,
precision: FloatPrecision::Magnitude(-3),
expected: "1.200",
},
TestCase {
input: 888999.,
precision: FloatPrecision::Magnitude(2),
expected: "889000",
},
TestCase {
input: 888999.,
precision: FloatPrecision::Magnitude(4),
expected: "890000",
},
TestCase {
input: 0.9,
precision: FloatPrecision::Magnitude(0),
expected: "1",
},
TestCase {
input: 0.9,
precision: FloatPrecision::Magnitude(2),
expected: "00",
},
TestCase {
input: 0.009,
precision: FloatPrecision::Magnitude(-2),
expected: "0.01",
},
TestCase {
input: 0.009,
precision: FloatPrecision::Magnitude(-1),
expected: "0.0",
},
TestCase {
input: 0.009,
precision: FloatPrecision::Magnitude(0),
expected: "0",
},
TestCase {
input: 0.0000009,
precision: FloatPrecision::Magnitude(0),
expected: "0",
},
TestCase {
input: 0.0000009,
precision: FloatPrecision::Magnitude(-7),
expected: "0.0000009",
},
TestCase {
input: 0.0000009,
precision: FloatPrecision::Magnitude(-6),
expected: "0.000001",
},
TestCase {
input: 1.234567,
precision: FloatPrecision::SignificantDigits(1),
expected: "1",
},
TestCase {
input: 1.234567,
precision: FloatPrecision::SignificantDigits(2),
expected: "1.2",
},
TestCase {
input: 1.234567,
precision: FloatPrecision::SignificantDigits(4),
expected: "1.235",
},
TestCase {
input: 1.234567,
precision: FloatPrecision::SignificantDigits(10),
expected: "1.234567000",
},
TestCase {
input: 888999.,
precision: FloatPrecision::SignificantDigits(1),
expected: "900000",
},
TestCase {
input: 888999.,
precision: FloatPrecision::SignificantDigits(2),
expected: "890000",
},
TestCase {
input: 888999.,
precision: FloatPrecision::SignificantDigits(4),
expected: "889000",
},
TestCase {
input: 988999.,
precision: FloatPrecision::SignificantDigits(1),
expected: "1000000",
},
TestCase {
input: 99888.,
precision: FloatPrecision::SignificantDigits(1),
expected: "100000",
},
TestCase {
input: 99888.,
precision: FloatPrecision::SignificantDigits(2),
expected: "100000",
},
TestCase {
input: 99888.,
precision: FloatPrecision::SignificantDigits(3),
expected: "99900",
},
TestCase {
input: 0.0099,
precision: FloatPrecision::SignificantDigits(1),
expected: "0.01",
},
TestCase {
input: 9.9888,
precision: FloatPrecision::SignificantDigits(1),
expected: "10",
},
TestCase {
input: 9.9888,
precision: FloatPrecision::SignificantDigits(2),
expected: "10",
},
TestCase {
input: 99888.0,
precision: FloatPrecision::SignificantDigits(1),
expected: "100000",
},
TestCase {
input: 99888.0,
precision: FloatPrecision::SignificantDigits(2),
expected: "100000",
},
TestCase {
input: 9.9888,
precision: FloatPrecision::SignificantDigits(3),
expected: "9.99",
},
];
for case in &cases {
let dec = FixedDecimal::try_from_f64(case.input, case.precision).unwrap();
writeable::assert_writeable_eq!(dec, case.expected, "{:?}", case);
}
}
#[test]
fn test_basic() {
#[derive(Debug)]
struct TestCase {
pub input: isize,
pub delta: i16,
pub expected: &'static str,
}
let cases = [
TestCase {
input: 51423,
delta: 0,
expected: "51423",
},
TestCase {
input: 51423,
delta: -2,
expected: "514.23",
},
TestCase {
input: 51423,
delta: -5,
expected: "0.51423",
},
TestCase {
input: 51423,
delta: -8,
expected: "0.00051423",
},
TestCase {
input: 51423,
delta: 3,
expected: "51423000",
},
TestCase {
input: 0,
delta: 0,
expected: "0",
},
TestCase {
input: 0,
delta: -2,
expected: "0.00",
},
TestCase {
input: 0,
delta: 3,
expected: "0000",
},
TestCase {
input: 500,
delta: 0,
expected: "500",
},
TestCase {
input: 500,
delta: -1,
expected: "50.0",
},
TestCase {
input: 500,
delta: -2,
expected: "5.00",
},
TestCase {
input: 500,
delta: -3,
expected: "0.500",
},
TestCase {
input: 500,
delta: -4,
expected: "0.0500",
},
TestCase {
input: 500,
delta: 3,
expected: "500000",
},
TestCase {
input: -123,
delta: 0,
expected: "-123",
},
TestCase {
input: -123,
delta: -2,
expected: "-1.23",
},
TestCase {
input: -123,
delta: -5,
expected: "-0.00123",
},
TestCase {
input: -123,
delta: 3,
expected: "-123000",
},
];
for cas in &cases {
let mut dec: FixedDecimal = cas.input.into();
// println!("{}", cas.input + 0.01);
dec.multiply_pow10(cas.delta);
writeable::assert_writeable_eq!(dec, cas.expected, "{:?}", cas);
}
}
#[test]
fn test_from_str() {
#[derive(Debug)]
struct TestCase {
pub input_str: &'static str,
/// The output str, `None` for roundtrip
pub output_str: Option<&'static str>,
/// [upper magnitude, upper nonzero magnitude, lower nonzero magnitude, lower magnitude]
pub magnitudes: [i16; 4],
}
let cases = [
TestCase {
input_str: "-00123400",
output_str: None,
magnitudes: [7, 5, 2, 0],
},
TestCase {
input_str: "+00123400",
output_str: None,
magnitudes: [7, 5, 2, 0],
},
TestCase {
input_str: "0.0123400",
output_str: None,
magnitudes: [0, -2, -5, -7],
},
TestCase {
input_str: "-00.123400",
output_str: None,
magnitudes: [1, -1, -4, -6],
},
TestCase {
input_str: "0012.3400",
output_str: None,
magnitudes: [3, 1, -2, -4],
},
TestCase {
input_str: "-0012340.0",
output_str: None,
magnitudes: [6, 4, 1, -1],
},
TestCase {
input_str: "1234",
output_str: None,
magnitudes: [3, 3, 0, 0],
},
TestCase {
input_str: "0.000000001",
output_str: None,
magnitudes: [0, -9, -9, -9],
},
TestCase {
input_str: "0.0000000010",
output_str: None,
magnitudes: [0, -9, -9, -10],
},
TestCase {
input_str: "1000000",
output_str: None,
magnitudes: [6, 6, 6, 0],
},
TestCase {
input_str: "10000001",
output_str: None,
magnitudes: [7, 7, 0, 0],
},
TestCase {
input_str: "123",
output_str: None,
magnitudes: [2, 2, 0, 0],
},
TestCase {
input_str: "922337203685477580898230948203840239384.9823094820384023938423424",
output_str: None,
magnitudes: [38, 38, -25, -25],
},
TestCase {
input_str: "009223372000.003685477580898230948203840239384000",
output_str: None,
magnitudes: [11, 9, -33, -36],
},
TestCase {
input_str: "-009223372000.003685477580898230948203840239384000",
output_str: None,
magnitudes: [11, 9, -33, -36],
},
TestCase {
input_str: "0",
output_str: None,
magnitudes: [0, 0, 0, 0],
},
TestCase {
input_str: "-0",
output_str: None,
magnitudes: [0, 0, 0, 0],
},
TestCase {
input_str: "+0",
output_str: None,
magnitudes: [0, 0, 0, 0],
},
TestCase {
input_str: "000",
output_str: None,
magnitudes: [2, 0, 0, 0],
},
TestCase {
input_str: "-00.0",
output_str: None,
magnitudes: [1, 0, 0, -1],
},
// no leading 0 parsing
TestCase {
input_str: ".0123400",
output_str: Some("0.0123400"),
magnitudes: [0, -2, -5, -7],
},
TestCase {
input_str: ".000000001",
output_str: Some("0.000000001"),
magnitudes: [0, -9, -9, -9],
},
TestCase {
input_str: "-.123400",
output_str: Some("-0.123400"),
magnitudes: [0, -1, -4, -6],
},
];
for cas in &cases {
let fd = FixedDecimal::from_str(cas.input_str).unwrap();
assert_eq!(
fd.magnitude_range(),
cas.magnitudes[3]..=cas.magnitudes[0],
"{cas:?}"
);
assert_eq!(fd.nonzero_magnitude_start(), cas.magnitudes[1], "{cas:?}");
assert_eq!(fd.nonzero_magnitude_end(), cas.magnitudes[2], "{cas:?}");
let input_str_roundtrip = fd.to_string();
let output_str = cas.output_str.unwrap_or(cas.input_str);
assert_eq!(output_str, input_str_roundtrip, "{cas:?}");
}
}
#[test]
fn test_from_str_scientific() {
#[derive(Debug)]
struct TestCase {
pub input_str: &'static str,
pub output: &'static str,
}
let cases = [
TestCase {
input_str: "-5.4e10",
output: "-54000000000",
},
TestCase {
input_str: "5.4e-2",
output: "0.054",
},
TestCase {
input_str: "54.1e-2",
output: "0.541",
},
TestCase {
input_str: "-541e-2",
output: "-5.41",
},
TestCase {
input_str: "0.009E10",
output: "90000000",
},
TestCase {
input_str: "-9000E-10",
output: "-0.0000009",
},
];
for cas in &cases {
let input_str_roundtrip = FixedDecimal::from_str(cas.input_str).unwrap().to_string();
assert_eq!(cas.output, input_str_roundtrip);
}
}
#[test]
fn test_isize_limits() {
for num in &[isize::MAX, isize::MIN] {
let dec: FixedDecimal = (*num).into();
let dec_str = dec.to_string();
assert_eq!(num.to_string(), dec_str);
assert_eq!(dec, FixedDecimal::from_str(&dec_str).unwrap());
writeable::assert_writeable_eq!(dec, dec_str);
}
}
#[test]
fn test_ui128_limits() {
for num in &[i128::MAX, i128::MIN] {
let dec: FixedDecimal = (*num).into();
let dec_str = dec.to_string();
assert_eq!(num.to_string(), dec_str);
assert_eq!(dec, FixedDecimal::from_str(&dec_str).unwrap());
writeable::assert_writeable_eq!(dec, dec_str);
}
for num in &[u128::MAX, u128::MIN] {
let dec: FixedDecimal = (*num).into();
let dec_str = dec.to_string();
assert_eq!(num.to_string(), dec_str);
assert_eq!(dec, FixedDecimal::from_str(&dec_str).unwrap());
writeable::assert_writeable_eq!(dec, dec_str);
}
}
#[test]
fn test_upper_magnitude_bounds() {
let mut dec: FixedDecimal = 98765.into();
assert_eq!(dec.upper_magnitude, 4);
dec.multiply_pow10(i16::MAX - 4);
assert_eq!(dec.upper_magnitude, i16::MAX);
assert_eq!(dec.nonzero_magnitude_start(), i16::MAX);
let dec_backup = dec.clone();
dec.multiply_pow10(1);
assert!(dec.is_zero());
assert_ne!(dec, dec_backup, "Value should be unchanged on failure");
// Checking from_str for dec (which is valid)
let dec_roundtrip = FixedDecimal::from_str(&dec.to_string()).unwrap();
assert_eq!(dec, dec_roundtrip);
}
#[test]
fn test_lower_magnitude_bounds() {
let mut dec: FixedDecimal = 98765.into();
assert_eq!(dec.lower_magnitude, 0);
dec.multiply_pow10(i16::MIN);
assert_eq!(dec.lower_magnitude, i16::MIN);
assert_eq!(dec.nonzero_magnitude_end(), i16::MIN);
let dec_backup = dec.clone();
dec.multiply_pow10(-1);
assert!(dec.is_zero());
assert_ne!(dec, dec_backup);
// Checking from_str for dec (which is valid)
let dec_roundtrip = FixedDecimal::from_str(&dec.to_string()).unwrap();
assert_eq!(dec, dec_roundtrip);
}
#[test]
fn test_zero_str_bounds() {
#[derive(Debug)]
struct TestCase {
pub zeros_before_dot: usize,
pub zeros_after_dot: usize,
pub expected_err: Option<ParseError>,
}
let cases = [
TestCase {
zeros_before_dot: i16::MAX as usize + 1,
zeros_after_dot: 0,
expected_err: None,
},
TestCase {
zeros_before_dot: i16::MAX as usize,
zeros_after_dot: 0,
expected_err: None,
},
TestCase {
zeros_before_dot: i16::MAX as usize + 2,
zeros_after_dot: 0,
expected_err: Some(ParseError::Limit),
},
TestCase {
zeros_before_dot: 0,
zeros_after_dot: i16::MAX as usize + 2,
expected_err: Some(ParseError::Limit),
},
TestCase {
zeros_before_dot: i16::MAX as usize + 1,
zeros_after_dot: i16::MAX as usize + 1,
expected_err: None,
},
TestCase {
zeros_before_dot: i16::MAX as usize + 2,
zeros_after_dot: i16::MAX as usize + 1,
expected_err: Some(ParseError::Limit),
},
TestCase {
zeros_before_dot: i16::MAX as usize + 1,
zeros_after_dot: i16::MAX as usize + 2,
expected_err: Some(ParseError::Limit),
},
TestCase {
zeros_before_dot: i16::MAX as usize,
zeros_after_dot: i16::MAX as usize + 2,
expected_err: Some(ParseError::Limit),
},
TestCase {
zeros_before_dot: i16::MAX as usize,
zeros_after_dot: i16::MAX as usize,
expected_err: None,
},
TestCase {
zeros_before_dot: i16::MAX as usize + 1,
zeros_after_dot: i16::MAX as usize,
expected_err: None,
},
];
for cas in &cases {
let mut input_str = format!("{:0fill$}", 0, fill = cas.zeros_before_dot);
if cas.zeros_after_dot > 0 {
input_str.push('.');
input_str.push_str(&format!("{:0fill$}", 0, fill = cas.zeros_after_dot));
}
match FixedDecimal::from_str(&input_str) {
Ok(dec) => {
assert_eq!(cas.expected_err, None, "{cas:?}");
assert_eq!(input_str, dec.to_string(), "{cas:?}");
}
Err(err) => {
assert_eq!(cas.expected_err, Some(err), "{cas:?}");
}
}
}
}
#[test]
fn test_syntax_error() {
#[derive(Debug)]
struct TestCase {
pub input_str: &'static str,
pub expected_err: Option<ParseError>,
}
let cases = [
TestCase {
input_str: "-12a34",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "0.0123√400",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "0.012.3400",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "-0-0123400",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "0-0123400",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "-0.00123400",
expected_err: None,
},
TestCase {
input_str: "00123400.",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "00123400.0",
expected_err: None,
},
TestCase {
input_str: "123_456",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "-",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "+",
expected_err: Some(ParseError::Syntax),
},
TestCase {
input_str: "-1",
expected_err: None,
},
];
for cas in &cases {
match FixedDecimal::from_str(cas.input_str) {
Ok(dec) => {
assert_eq!(cas.expected_err, None, "{cas:?}");
assert_eq!(cas.input_str, dec.to_string(), "{cas:?}");
}
Err(err) => {
assert_eq!(cas.expected_err, Some(err), "{cas:?}");
}
}
}
}
#[test]
fn test_pad() {
let mut dec = FixedDecimal::from_str("-0.42").unwrap();
assert_eq!("-0.42", dec.to_string());
dec.pad_start(1);
assert_eq!("-0.42", dec.to_string());
dec.pad_start(4);
assert_eq!("-0000.42", dec.to_string());
dec.pad_start(2);
assert_eq!("-00.42", dec.to_string());
}
#[test]
fn test_sign_display() {
use SignDisplay::*;
let positive_nonzero = FixedDecimal::from(163);
let negative_nonzero = FixedDecimal::from(-163);
let positive_zero = FixedDecimal::from(0);
let negative_zero = FixedDecimal::from(0).with_sign(Sign::Negative);
assert_eq!(
"163",
positive_nonzero.clone().with_sign_display(Auto).to_string()
);
assert_eq!(
"-163",
negative_nonzero.clone().with_sign_display(Auto).to_string()
);
assert_eq!(
"0",
positive_zero.clone().with_sign_display(Auto).to_string()
);
assert_eq!(
"-0",
negative_zero.clone().with_sign_display(Auto).to_string()
);
assert_eq!(
"+163",
positive_nonzero
.clone()
.with_sign_display(Always)
.to_string()
);
assert_eq!(
"-163",
negative_nonzero
.clone()
.with_sign_display(Always)
.to_string()
);
assert_eq!(
"+0",
positive_zero.clone().with_sign_display(Always).to_string()
);
assert_eq!(
"-0",
negative_zero.clone().with_sign_display(Always).to_string()
);
assert_eq!(
"163",
positive_nonzero
.clone()
.with_sign_display(Never)
.to_string()
);
assert_eq!(
"163",
negative_nonzero
.clone()
.with_sign_display(Never)
.to_string()
);
assert_eq!(
"0",
positive_zero.clone().with_sign_display(Never).to_string()
);
assert_eq!(
"0",
negative_zero.clone().with_sign_display(Never).to_string()
);
assert_eq!(
"+163",
positive_nonzero
.clone()
.with_sign_display(ExceptZero)
.to_string()
);
assert_eq!(
"-163",
negative_nonzero
.clone()
.with_sign_display(ExceptZero)
.to_string()
);
assert_eq!(
"0",
positive_zero
.clone()
.with_sign_display(ExceptZero)
.to_string()
);
assert_eq!(
"0",
negative_zero
.clone()
.with_sign_display(ExceptZero)
.to_string()
);
assert_eq!(
"163",
positive_nonzero.with_sign_display(Negative).to_string()
);
assert_eq!(
"-163",
negative_nonzero.with_sign_display(Negative).to_string()
);
assert_eq!("0", positive_zero.with_sign_display(Negative).to_string());
assert_eq!("0", negative_zero.with_sign_display(Negative).to_string());
}
#[test]
fn test_set_max_position() {
let mut dec = FixedDecimal::from(1000);
assert_eq!("1000", dec.to_string());
dec.set_max_position(2);
assert_eq!("00", dec.to_string());
dec.set_max_position(0);
assert_eq!("0", dec.to_string());
dec.set_max_position(3);
assert_eq!("000", dec.to_string());
let mut dec = FixedDecimal::from_str("0.456").unwrap();
assert_eq!("0.456", dec.to_string());
dec.set_max_position(0);
assert_eq!("0.456", dec.to_string());
dec.set_max_position(-1);
assert_eq!("0.056", dec.to_string());
dec.set_max_position(-2);
assert_eq!("0.006", dec.to_string());
dec.set_max_position(-3);
assert_eq!("0.000", dec.to_string());
dec.set_max_position(-4);
assert_eq!("0.0000", dec.to_string());
let mut dec = FixedDecimal::from_str("100.01").unwrap();
dec.set_max_position(1);
assert_eq!("0.01", dec.to_string());
}
#[test]
fn test_pad_start_bounds() {
let mut dec = FixedDecimal::from_str("299792.458").unwrap();
let max_integer_digits = i16::MAX as usize + 1;
dec.pad_start(i16::MAX - 1);
assert_eq!(
max_integer_digits - 2,
dec.to_string().split_once('.').unwrap().0.len()
);
dec.pad_start(i16::MAX);
assert_eq!(
max_integer_digits - 1,
dec.to_string().split_once('.').unwrap().0.len()
);
}
#[test]
fn test_pad_end_bounds() {
let mut dec = FixedDecimal::from_str("299792.458").unwrap();
let max_fractional_digits = -(i16::MIN as isize) as usize;
dec.pad_end(i16::MIN + 1);
assert_eq!(
max_fractional_digits - 1,
dec.to_string().split_once('.').unwrap().1.len()
);
dec.pad_end(i16::MIN);
assert_eq!(
max_fractional_digits,
dec.to_string().split_once('.').unwrap().1.len()
);
}
#[test]
fn test_rounding() {
pub(crate) use std::str::FromStr;
// Test Ceil
let mut dec = FixedDecimal::from_str("3.234").unwrap();
dec.ceil(0);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.222").unwrap();
dec.ceil(-1);
assert_eq!("2.3", dec.to_string());
let mut dec = FixedDecimal::from_str("22.222").unwrap();
dec.ceil(-2);
assert_eq!("22.23", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.ceil(-2);
assert_eq!("100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.ceil(-5);
assert_eq!("99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.ceil(-5);
assert_eq!("-99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.ceil(-2);
assert_eq!("-99.99", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.ceil(4);
assert_eq!("10000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.ceil(4);
assert_eq!("-0000", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.ceil(-1);
assert_eq!("0.1", dec.to_string());
let mut dec = FixedDecimal::from_str("-0.009").unwrap();
dec.ceil(-1);
assert_eq!("-0.0", dec.to_string());
// Test Half Ceil
let mut dec = FixedDecimal::from_str("3.234").unwrap();
dec.round_with_mode(0, RoundingMode::HalfCeil);
assert_eq!("3", dec.to_string());
let mut dec = FixedDecimal::from_str("3.534").unwrap();
dec.round_with_mode(0, RoundingMode::HalfCeil);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("3.934").unwrap();
dec.round_with_mode(0, RoundingMode::HalfCeil);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.222").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfCeil);
assert_eq!("2.2", dec.to_string());
let mut dec = FixedDecimal::from_str("2.44").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfCeil);
assert_eq!("2.4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.45").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfCeil);
assert_eq!("2.5", dec.to_string());
let mut dec = FixedDecimal::from_str("-2.44").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfCeil);
assert_eq!("-2.4", dec.to_string());
let mut dec = FixedDecimal::from_str("-2.45").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfCeil);
assert_eq!("-2.4", dec.to_string());
let mut dec = FixedDecimal::from_str("22.222").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfCeil);
assert_eq!("22.22", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfCeil);
assert_eq!("100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(-5, RoundingMode::HalfCeil);
assert_eq!("99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(-5, RoundingMode::HalfCeil);
assert_eq!("-99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfCeil);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(4, RoundingMode::HalfCeil);
assert_eq!("0000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(4, RoundingMode::HalfCeil);
assert_eq!("-0000", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfCeil);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("-0.009").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfCeil);
assert_eq!("-0.0", dec.to_string());
// Test Floor
let mut dec = FixedDecimal::from_str("3.234").unwrap();
dec.floor(0);
assert_eq!("3", dec.to_string());
let mut dec = FixedDecimal::from_str("2.222").unwrap();
dec.floor(-1);
assert_eq!("2.2", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.floor(-2);
assert_eq!("99.99", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.floor(-10);
assert_eq!("99.9990000000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.floor(-10);
assert_eq!("-99.9990000000", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.floor(10);
assert_eq!("0000000000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.floor(10);
assert_eq!("-10000000000", dec.to_string());
// Test Half Floor
let mut dec = FixedDecimal::from_str("3.234").unwrap();
dec.round_with_mode(0, RoundingMode::HalfFloor);
assert_eq!("3", dec.to_string());
let mut dec = FixedDecimal::from_str("3.534").unwrap();
dec.round_with_mode(0, RoundingMode::HalfFloor);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("3.934").unwrap();
dec.round_with_mode(0, RoundingMode::HalfFloor);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.222").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfFloor);
assert_eq!("2.2", dec.to_string());
let mut dec = FixedDecimal::from_str("2.44").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfFloor);
assert_eq!("2.4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.45").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfFloor);
assert_eq!("2.4", dec.to_string());
let mut dec = FixedDecimal::from_str("-2.44").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfFloor);
assert_eq!("-2.4", dec.to_string());
let mut dec = FixedDecimal::from_str("-2.45").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfFloor);
assert_eq!("-2.5", dec.to_string());
let mut dec = FixedDecimal::from_str("22.222").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfFloor);
assert_eq!("22.22", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfFloor);
assert_eq!("100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(-5, RoundingMode::HalfFloor);
assert_eq!("99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(-5, RoundingMode::HalfFloor);
assert_eq!("-99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfFloor);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(4, RoundingMode::HalfFloor);
assert_eq!("0000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(4, RoundingMode::HalfFloor);
assert_eq!("-0000", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfFloor);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("-0.009").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfFloor);
assert_eq!("-0.0", dec.to_string());
// Test Truncate Right
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.trunc(-5);
assert_eq!("4235.97000", dec.to_string());
dec.trunc(-1);
assert_eq!("4235.9", dec.to_string());
dec.trunc(0);
assert_eq!("4235", dec.to_string());
dec.trunc(1);
assert_eq!("4230", dec.to_string());
dec.trunc(5);
assert_eq!("00000", dec.to_string());
dec.trunc(2);
assert_eq!("00000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.trunc(-2);
assert_eq!("-99.99", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.trunc(-1);
assert_eq!("1234.5", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.trunc(-1);
assert_eq!("0.0", dec.to_string());
// Test trunced
let dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
assert_eq!("4235.97000", dec.clone().trunced(-5).to_string());
assert_eq!("4230", dec.clone().trunced(1).to_string());
assert_eq!("4200", dec.clone().trunced(2).to_string());
assert_eq!("00000", dec.trunced(5).to_string());
//Test expand
let mut dec = FixedDecimal::from_str("3.234").unwrap();
dec.expand(0);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.222").unwrap();
dec.expand(-1);
assert_eq!("2.3", dec.to_string());
let mut dec = FixedDecimal::from_str("22.222").unwrap();
dec.expand(-2);
assert_eq!("22.23", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.expand(-2);
assert_eq!("100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.expand(-5);
assert_eq!("99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.expand(-5);
assert_eq!("-99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.expand(-2);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.expand(4);
assert_eq!("10000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.expand(4);
assert_eq!("-10000", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.expand(-1);
assert_eq!("0.1", dec.to_string());
let mut dec = FixedDecimal::from_str("-0.009").unwrap();
dec.expand(-1);
assert_eq!("-0.1", dec.to_string());
let mut dec = FixedDecimal::from_str("3.954").unwrap();
dec.expand(0);
assert_eq!("4", dec.to_string());
// Test half_expand
let mut dec = FixedDecimal::from_str("3.234").unwrap();
dec.round_with_mode(0, RoundingMode::HalfExpand);
assert_eq!("3", dec.to_string());
let mut dec = FixedDecimal::from_str("3.534").unwrap();
dec.round_with_mode(0, RoundingMode::HalfExpand);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("3.934").unwrap();
dec.round_with_mode(0, RoundingMode::HalfExpand);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.222").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfExpand);
assert_eq!("2.2", dec.to_string());
let mut dec = FixedDecimal::from_str("2.44").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfExpand);
assert_eq!("2.4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.45").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfExpand);
assert_eq!("2.5", dec.to_string());
let mut dec = FixedDecimal::from_str("-2.44").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfExpand);
assert_eq!("-2.4", dec.to_string());
let mut dec = FixedDecimal::from_str("-2.45").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfExpand);
assert_eq!("-2.5", dec.to_string());
let mut dec = FixedDecimal::from_str("22.222").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfExpand);
assert_eq!("22.22", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfExpand);
assert_eq!("100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(-5, RoundingMode::HalfExpand);
assert_eq!("99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(-5, RoundingMode::HalfExpand);
assert_eq!("-99.99900", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfExpand);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("99.999").unwrap();
dec.round_with_mode(4, RoundingMode::HalfExpand);
assert_eq!("0000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode(4, RoundingMode::HalfExpand);
assert_eq!("-0000", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfExpand);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("-0.009").unwrap();
dec.round_with_mode(-1, RoundingMode::HalfExpand);
assert_eq!("-0.0", dec.to_string());
// Test specific cases
let mut dec = FixedDecimal::from_str("1.108").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfEven);
assert_eq!("1.11", dec.to_string());
let mut dec = FixedDecimal::from_str("1.108").unwrap();
dec.expand(-2);
assert_eq!("1.11", dec.to_string());
let mut dec = FixedDecimal::from_str("1.108").unwrap();
dec.trunc(-2);
assert_eq!("1.10", dec.to_string());
let mut dec = FixedDecimal::from_str("2.78536913177").unwrap();
dec.round_with_mode(-2, RoundingMode::HalfEven);
assert_eq!("2.79", dec.to_string());
}
#[test]
fn test_concatenate() {
#[derive(Debug)]
struct TestCase {
pub input_1: &'static str,
pub input_2: &'static str,
pub expected: Option<&'static str>,
}
let cases = [
TestCase {
input_1: "123",
input_2: "0.456",
expected: Some("123.456"),
},
TestCase {
input_1: "0.456",
input_2: "123",
expected: None,
},
TestCase {
input_1: "123",
input_2: "0.0456",
expected: Some("123.0456"),
},
TestCase {
input_1: "0.0456",
input_2: "123",
expected: None,
},
TestCase {
input_1: "100",
input_2: "0.456",
expected: Some("100.456"),
},
TestCase {
input_1: "0.456",
input_2: "100",
expected: None,
},
TestCase {
input_1: "100",
input_2: "0.001",
expected: Some("100.001"),
},
TestCase {
input_1: "0.001",
input_2: "100",
expected: None,
},
TestCase {
input_1: "123000",
input_2: "456",
expected: Some("123456"),
},
TestCase {
input_1: "456",
input_2: "123000",
expected: None,
},
TestCase {
input_1: "5",
input_2: "5",
expected: None,
},
TestCase {
input_1: "120",
input_2: "25",
expected: None,
},
TestCase {
input_1: "1.1",
input_2: "0.2",
expected: None,
},
TestCase {
input_1: "0",
input_2: "222",
expected: Some("222"),
},
TestCase {
input_1: "222",
input_2: "0",
expected: Some("222"),
},
TestCase {
input_1: "0",
input_2: "0",
expected: Some("0"),
},
TestCase {
input_1: "000",
input_2: "0",
expected: Some("000"),
},
TestCase {
input_1: "0.00",
input_2: "0",
expected: Some("0.00"),
},
];
for cas in &cases {
let fd1 = FixedDecimal::from_str(cas.input_1).unwrap();
let fd2 = FixedDecimal::from_str(cas.input_2).unwrap();
match fd1.concatenated_end(fd2) {
Ok(fd) => {
assert_eq!(cas.expected, Some(fd.to_string().as_str()), "{cas:?}");
}
Err(_) => {
assert!(cas.expected.is_none(), "{cas:?}");
}
}
}
}
#[test]
fn test_rounding_increment() {
// Test Truncate Right
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(-2, RoundingMode::Trunc, RoundingIncrement::MultiplesOf2);
assert_eq!("4235.96", dec.to_string());
dec.round_with_mode_and_increment(-1, RoundingMode::Trunc, RoundingIncrement::MultiplesOf5);
assert_eq!("4235.5", dec.to_string());
dec.round_with_mode_and_increment(0, RoundingMode::Trunc, RoundingIncrement::MultiplesOf25);
assert_eq!("4225", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::Trunc, RoundingIncrement::MultiplesOf5);
assert_eq!("00000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::Trunc, RoundingIncrement::MultiplesOf2);
assert_eq!("00000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Trunc, RoundingIncrement::MultiplesOf25);
assert_eq!("-99.75", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::Trunc, RoundingIncrement::MultiplesOf2);
assert_eq!("1234.4", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::Trunc, RoundingIncrement::MultiplesOf5);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Trunc, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Trunc, RoundingIncrement::MultiplesOf25);
assert_eq!("0.25", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::Trunc, RoundingIncrement::MultiplesOf2);
assert_eq!("0.700", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Trunc, RoundingIncrement::MultiplesOf25);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Trunc,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(6).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Trunc,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(5).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Trunc,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(50).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Trunc,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(6).multiplied_pow10(i16::MAX), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Trunc,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(5).multiplied_pow10(i16::MAX), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Trunc,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(0).multiplied_pow10(i16::MAX), dec);
// Test Expand
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(-2, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("4235.98", dec.to_string());
dec.round_with_mode_and_increment(-1, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("4236.0", dec.to_string());
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("4250", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("500000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("500000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("1234.6", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("0.5", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("0.75", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("0.702", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("25", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Expand,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Expand,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(10).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Expand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(75).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Expand,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MAX), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Expand,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(0).multiplied_pow10(i16::MAX), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Expand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(0).multiplied_pow10(i16::MAX), dec);
// Test Half Truncate Right
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(-2, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf2);
assert_eq!("4235.96", dec.to_string());
dec.round_with_mode_and_increment(-1, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf5);
assert_eq!("4236.0", dec.to_string());
dec.round_with_mode_and_increment(0, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf25);
assert_eq!("4225", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf5);
assert_eq!("00000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf2);
assert_eq!("00000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf2);
assert_eq!("1234.6", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf5);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf2);
assert_eq!("0.700", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf25);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(6).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(10).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(75).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(6).multiplied_pow10(i16::MAX), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(5).multiplied_pow10(i16::MAX), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::HalfTrunc,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(0).multiplied_pow10(i16::MAX), dec);
// Test Half Expand
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf2,
);
assert_eq!("4235.98", dec.to_string());
dec.round_with_mode_and_increment(
-1,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf5,
);
assert_eq!("4236.0", dec.to_string());
dec.round_with_mode_and_increment(
0,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("4225", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::HalfExpand, RoundingIncrement::MultiplesOf5);
assert_eq!("00000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::HalfExpand, RoundingIncrement::MultiplesOf2);
assert_eq!("00000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(
-1,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf2,
);
assert_eq!("1234.6", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(
-1,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf5,
);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(
-3,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf2,
);
assert_eq!("0.700", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(
0,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(10).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(75).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MAX), dec);
// Test Ceil
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(-2, RoundingMode::Ceil, RoundingIncrement::MultiplesOf2);
assert_eq!("4235.98", dec.to_string());
dec.round_with_mode_and_increment(-1, RoundingMode::Ceil, RoundingIncrement::MultiplesOf5);
assert_eq!("4236.0", dec.to_string());
dec.round_with_mode_and_increment(0, RoundingMode::Ceil, RoundingIncrement::MultiplesOf25);
assert_eq!("4250", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::Ceil, RoundingIncrement::MultiplesOf5);
assert_eq!("500000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::Ceil, RoundingIncrement::MultiplesOf2);
assert_eq!("500000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Ceil, RoundingIncrement::MultiplesOf25);
assert_eq!("-99.75", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::Ceil, RoundingIncrement::MultiplesOf2);
assert_eq!("1234.6", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::Ceil, RoundingIncrement::MultiplesOf5);
assert_eq!("0.5", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Ceil, RoundingIncrement::MultiplesOf25);
assert_eq!("0.75", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Ceil, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::Ceil, RoundingIncrement::MultiplesOf2);
assert_eq!("0.702", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Ceil, RoundingIncrement::MultiplesOf25);
assert_eq!("25", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Ceil,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Ceil,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(10).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Ceil,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(75).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Ceil,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MAX), dec);
// Test Half Ceil
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(-2, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf2);
assert_eq!("4235.98", dec.to_string());
dec.round_with_mode_and_increment(-1, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf5);
assert_eq!("4236.0", dec.to_string());
dec.round_with_mode_and_increment(0, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf25);
assert_eq!("4225", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf5);
assert_eq!("00000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf2);
assert_eq!("00000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf25);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf2);
assert_eq!("1234.6", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf5);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf2);
assert_eq!("0.700", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf25);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfCeil,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfCeil,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(10).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfCeil,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(75).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::HalfCeil,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MAX), dec);
// Test Floor
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(-2, RoundingMode::Floor, RoundingIncrement::MultiplesOf2);
assert_eq!("4235.96", dec.to_string());
dec.round_with_mode_and_increment(-1, RoundingMode::Floor, RoundingIncrement::MultiplesOf5);
assert_eq!("4235.5", dec.to_string());
dec.round_with_mode_and_increment(0, RoundingMode::Floor, RoundingIncrement::MultiplesOf25);
assert_eq!("4225", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::Floor, RoundingIncrement::MultiplesOf5);
assert_eq!("00000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::Floor, RoundingIncrement::MultiplesOf2);
assert_eq!("00000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Floor, RoundingIncrement::MultiplesOf25);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::Floor, RoundingIncrement::MultiplesOf2);
assert_eq!("1234.4", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::Floor, RoundingIncrement::MultiplesOf5);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Floor, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Floor, RoundingIncrement::MultiplesOf25);
assert_eq!("0.25", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::Floor, RoundingIncrement::MultiplesOf2);
assert_eq!("0.700", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Floor, RoundingIncrement::MultiplesOf25);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Floor,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(6).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Floor,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(5).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::Floor,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(50).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Floor,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(6).multiplied_pow10(i16::MAX), dec);
// Test Half Floor
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(-2, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf2);
assert_eq!("4235.96", dec.to_string());
dec.round_with_mode_and_increment(-1, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf5);
assert_eq!("4236.0", dec.to_string());
dec.round_with_mode_and_increment(0, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf25);
assert_eq!("4225", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf5);
assert_eq!("00000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf2);
assert_eq!("00000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfFloor,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf2);
assert_eq!("1234.6", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf5);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfFloor,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfFloor,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf2);
assert_eq!("0.700", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::HalfFloor, RoundingIncrement::MultiplesOf25);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfFloor,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(6).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfFloor,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(10).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfFloor,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(75).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::HalfFloor,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(6).multiplied_pow10(i16::MAX), dec);
// Test Half Even
let mut dec = FixedDecimal::from(4235970).multiplied_pow10(-3);
assert_eq!("4235.970", dec.to_string());
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("4235.96", dec.to_string());
dec.round_with_mode_and_increment(-1, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf5);
assert_eq!("4236.0", dec.to_string());
dec.round_with_mode_and_increment(0, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("4225", dec.to_string());
dec.round_with_mode_and_increment(5, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf5);
assert_eq!("00000", dec.to_string());
dec.round_with_mode_and_increment(2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("00000", dec.to_string());
let mut dec = FixedDecimal::from_str("-99.999").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("-100.00", dec.to_string());
let mut dec = FixedDecimal::from_str("1234.56").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("1234.6", dec.to_string());
let mut dec = FixedDecimal::from_str("0.009").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf5);
assert_eq!("0.0", dec.to_string());
let mut dec = FixedDecimal::from_str("0.60").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.40").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("0.7000000099").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("0.700", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfEven,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfEven,
RoundingIncrement::MultiplesOf5,
);
assert_eq!(FixedDecimal::from(10).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(70).multiplied_pow10(i16::MIN);
dec.round_with_mode_and_increment(
i16::MIN,
RoundingMode::HalfEven,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(75).multiplied_pow10(i16::MIN), dec);
let mut dec = FixedDecimal::from(7).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::HalfEven,
RoundingIncrement::MultiplesOf2,
);
assert_eq!(FixedDecimal::from(8).multiplied_pow10(i16::MAX), dec);
// Test specific cases
let mut dec = FixedDecimal::from_str("1.108").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("1.12", dec.to_string());
let mut dec = FixedDecimal::from_str("1.108").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("1.15", dec.to_string());
let mut dec = FixedDecimal::from_str("1.108").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("1.25", dec.to_string());
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MAX - 1);
dec.round_with_mode_and_increment(
i16::MAX - 1,
RoundingMode::Expand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(25).multiplied_pow10(i16::MAX - 1), dec);
let mut dec = FixedDecimal::from(9).multiplied_pow10(i16::MAX);
dec.round_with_mode_and_increment(
i16::MAX,
RoundingMode::Expand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!(FixedDecimal::from(0).multiplied_pow10(i16::MAX), dec);
let mut dec = FixedDecimal::from_str("0").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from_str("0").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from_str("0").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("0", dec.to_string());
let mut dec = FixedDecimal::from_str("0.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("2", dec.to_string());
let mut dec = FixedDecimal::from_str("0.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("5", dec.to_string());
let mut dec = FixedDecimal::from_str("0.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("25", dec.to_string());
let mut dec = FixedDecimal::from_str("1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("2", dec.to_string());
let mut dec = FixedDecimal::from_str("1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("5", dec.to_string());
let mut dec = FixedDecimal::from_str("1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("25", dec.to_string());
let mut dec = FixedDecimal::from_str("2").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("2", dec.to_string());
let mut dec = FixedDecimal::from_str("2").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("5", dec.to_string());
let mut dec = FixedDecimal::from_str("2.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("2.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("5", dec.to_string());
let mut dec = FixedDecimal::from_str("4").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("4", dec.to_string());
let mut dec = FixedDecimal::from_str("4").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("5", dec.to_string());
let mut dec = FixedDecimal::from_str("4.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("6", dec.to_string());
let mut dec = FixedDecimal::from_str("4.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("5", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("6", dec.to_string());
let mut dec = FixedDecimal::from_str("5").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("5", dec.to_string());
let mut dec = FixedDecimal::from_str("5.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("6", dec.to_string());
let mut dec = FixedDecimal::from_str("5.1").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("10", dec.to_string());
let mut dec = FixedDecimal::from_str("6").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf2);
assert_eq!("6", dec.to_string());
let mut dec = FixedDecimal::from_str("6").unwrap();
dec.round_with_mode_and_increment(0, RoundingMode::Expand, RoundingIncrement::MultiplesOf5);
assert_eq!("10", dec.to_string());
let mut dec = FixedDecimal::from_str("0.50").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::Expand, RoundingIncrement::MultiplesOf25);
assert_eq!("0.50", dec.to_string());
let mut dec = FixedDecimal::from_str("1.1025").unwrap();
dec.round_with_mode_and_increment(-3, RoundingMode::HalfTrunc, RoundingIncrement::MultiplesOf5);
assert_eq!("1.100", dec.to_string());
let mut dec = FixedDecimal::from_str("1.10125").unwrap();
dec.round_with_mode_and_increment(
-4,
RoundingMode::HalfExpand,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("1.1025", dec.to_string());
let mut dec = FixedDecimal::from_str("-1.25").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf5);
assert_eq!("-1.0", dec.to_string());
let mut dec = FixedDecimal::from_str("-1.251").unwrap();
dec.round_with_mode_and_increment(-1, RoundingMode::HalfCeil, RoundingIncrement::MultiplesOf5);
assert_eq!("-1.5", dec.to_string());
let mut dec = FixedDecimal::from_str("-1.125").unwrap();
dec.round_with_mode_and_increment(
-2,
RoundingMode::HalfFloor,
RoundingIncrement::MultiplesOf25,
);
assert_eq!("-1.25", dec.to_string());
let mut dec = FixedDecimal::from_str("2.71").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.72", dec.to_string());
let mut dec = FixedDecimal::from_str("2.73").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.72", dec.to_string());
let mut dec = FixedDecimal::from_str("2.75").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.76", dec.to_string());
let mut dec = FixedDecimal::from_str("2.77").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.76", dec.to_string());
let mut dec = FixedDecimal::from_str("2.79").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.80", dec.to_string());
let mut dec = FixedDecimal::from_str("2.41").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.40", dec.to_string());
let mut dec = FixedDecimal::from_str("2.43").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.44", dec.to_string());
let mut dec = FixedDecimal::from_str("2.45").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.44", dec.to_string());
let mut dec = FixedDecimal::from_str("2.47").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.48", dec.to_string());
let mut dec = FixedDecimal::from_str("2.49").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf2);
assert_eq!("2.48", dec.to_string());
let mut dec = FixedDecimal::from_str("2.725").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf5);
assert_eq!("2.70", dec.to_string());
let mut dec = FixedDecimal::from_str("2.775").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf5);
assert_eq!("2.80", dec.to_string());
let mut dec = FixedDecimal::from_str("2.875").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("3.00", dec.to_string());
let mut dec = FixedDecimal::from_str("2.375").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("2.50", dec.to_string());
let mut dec = FixedDecimal::from_str("2.125").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("2.00", dec.to_string());
let mut dec = FixedDecimal::from_str("2.625").unwrap();
dec.round_with_mode_and_increment(-2, RoundingMode::HalfEven, RoundingIncrement::MultiplesOf25);
assert_eq!("2.50", dec.to_string());
}