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227 lines
6.3 KiB
Rust
227 lines
6.3 KiB
Rust
use std::cmp::Ordering;
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use crate::{
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ast::{RangeInclusion, RangeOperator},
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*,
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};
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#[derive(Debug, Clone, PartialEq)]
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pub struct Range {
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pub from: Value,
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pub incr: Value,
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pub to: Value,
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pub inclusion: RangeInclusion,
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}
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impl Range {
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pub fn new(
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expr_span: Span,
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from: Value,
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next: Value,
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to: Value,
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operator: &RangeOperator,
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) -> Result<Range, ShellError> {
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// Select from & to values if they're not specified
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// TODO: Replace the placeholder values with proper min/max based on data type
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let from = if let Value::Nothing { .. } = from {
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Value::Int {
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val: 0i64,
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span: Span::unknown(),
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}
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} else {
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from
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};
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let to = if let Value::Nothing { .. } = to {
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if let Ok(Value::Bool { val: true, .. }) = next.lt(expr_span, &from) {
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Value::Int {
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val: -100i64,
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span: Span::unknown(),
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}
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} else {
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Value::Int {
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val: 100i64,
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span: Span::unknown(),
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}
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}
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} else {
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to
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};
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// Check if the range counts up or down
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let moves_up = matches!(from.lte(expr_span, &to), Ok(Value::Bool { val: true, .. }));
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// Convert the next value into the inctement
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let incr = if let Value::Nothing { .. } = next {
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if moves_up {
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Value::Int {
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val: 1i64,
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span: Span::unknown(),
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}
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} else {
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Value::Int {
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val: -1i64,
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span: Span::unknown(),
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}
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}
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} else {
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next.sub(operator.next_op_span, &from)?
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};
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let zero = Value::Int {
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val: 0i64,
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span: Span::unknown(),
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};
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// Increment must be non-zero, otherwise we iterate forever
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if matches!(incr.eq(expr_span, &zero), Ok(Value::Bool { val: true, .. })) {
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return Err(ShellError::CannotCreateRange(expr_span));
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}
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// If to > from, then incr > 0, otherwise we iterate forever
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if let (Value::Bool { val: true, .. }, Value::Bool { val: false, .. }) = (
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to.gt(operator.span, &from)?,
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incr.gt(operator.next_op_span, &zero)?,
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) {
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return Err(ShellError::CannotCreateRange(expr_span));
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}
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// If to < from, then incr < 0, otherwise we iterate forever
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if let (Value::Bool { val: true, .. }, Value::Bool { val: false, .. }) = (
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to.lt(operator.span, &from)?,
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incr.lt(operator.next_op_span, &zero)?,
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) {
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return Err(ShellError::CannotCreateRange(expr_span));
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}
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Ok(Range {
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from,
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incr,
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to,
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inclusion: operator.inclusion,
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})
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}
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}
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impl IntoIterator for Range {
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type Item = Value;
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type IntoIter = RangeIterator;
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fn into_iter(self) -> Self::IntoIter {
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let span = self.from.span();
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RangeIterator::new(self, span)
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}
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}
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pub struct RangeIterator {
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curr: Value,
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end: Value,
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span: Span,
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is_end_inclusive: bool,
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moves_up: bool,
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incr: Value,
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done: bool,
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}
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impl RangeIterator {
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pub fn new(range: Range, span: Span) -> RangeIterator {
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let start = match range.from {
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Value::Nothing { .. } => Value::Int { val: 0, span },
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x => x,
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};
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let end = match range.to {
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Value::Nothing { .. } => Value::Int {
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val: i64::MAX,
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span,
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},
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x => x,
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};
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RangeIterator {
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moves_up: matches!(start.lte(span, &end), Ok(Value::Bool { val: true, .. })),
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curr: start,
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end,
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span,
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is_end_inclusive: matches!(range.inclusion, RangeInclusion::Inclusive),
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done: false,
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incr: range.incr,
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}
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}
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}
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// Compare two floating point numbers. The decision interval for equality is dynamically scaled
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// as the value being compared increases in magnitude.
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fn compare_floats(val: f64, other: f64) -> Option<Ordering> {
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let prec = f64::EPSILON.max(val.abs() * f64::EPSILON);
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if (other - val).abs() < prec {
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return Some(Ordering::Equal);
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}
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val.partial_cmp(&other)
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}
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impl Iterator for RangeIterator {
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type Item = Value;
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fn next(&mut self) -> Option<Self::Item> {
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if self.done {
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return None;
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}
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let ordering = if matches!(self.end, Value::Nothing { .. }) {
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Some(Ordering::Less)
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} else {
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match (&self.curr, &self.end) {
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(Value::Int { val: curr, .. }, Value::Int { val: end, .. }) => Some(curr.cmp(end)),
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(Value::Float { val: curr, .. }, Value::Float { val: end, .. }) => {
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compare_floats(*curr, *end)
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}
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(Value::Float { val: curr, .. }, Value::Int { val: end, .. }) => {
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compare_floats(*curr, *end as f64)
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}
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(Value::Int { val: curr, .. }, Value::Float { val: end, .. }) => {
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compare_floats(*curr as f64, *end)
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}
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_ => None,
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}
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};
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let ordering = if let Some(ord) = ordering {
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ord
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} else {
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self.done = true;
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return Some(Value::Error {
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error: ShellError::CannotCreateRange(self.span),
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});
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};
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let desired_ordering = if self.moves_up {
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Ordering::Less
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} else {
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Ordering::Greater
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};
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if (ordering == desired_ordering) || (self.is_end_inclusive && ordering == Ordering::Equal)
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{
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let next_value = self.curr.add(self.span, &self.incr);
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let mut next = match next_value {
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Ok(result) => result,
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Err(error) => {
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self.done = true;
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return Some(Value::Error { error });
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}
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};
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std::mem::swap(&mut self.curr, &mut next);
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Some(next)
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} else {
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None
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}
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}
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}
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