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sliceable.rs
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498 lines (446 loc) · 14.7 KB
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use num_bigint::BigInt;
use num_traits::{One, Signed, ToPrimitive, Zero};
use std::ops::Range;
use crate::builtins::int::PyInt;
use crate::builtins::slice::{PySlice, PySliceRef};
use crate::pyobject::{BorrowValue, Either, PyObjectRef, PyResult, TryFromObject, TypeProtocol};
use crate::vm::VirtualMachine;
pub trait PySliceableSequenceMut {
type Item: Clone;
// as CPython, length of range and items could be different, function must act like Vec::splice()
fn do_set_range(&mut self, range: Range<usize>, items: &[Self::Item]);
fn do_replace_indexes<I>(&mut self, indexes: I, items: &[Self::Item])
where
I: Iterator<Item = usize>;
fn do_delete_range(&mut self, range: Range<usize>);
fn do_delete_indexes<I>(&mut self, range: Range<usize>, indexes: I)
where
I: Iterator<Item = usize>;
fn as_slice(&self) -> &[Self::Item];
fn set_slice_items_no_resize(
&mut self,
vm: &VirtualMachine,
slice: &PySlice,
items: &[Self::Item],
) -> PyResult<()> {
let (range, step, is_negative_step) = convert_slice(slice, self.as_slice().len(), vm)?;
if !is_negative_step && step == Some(1) {
return if range.end - range.start == items.len() {
self.do_set_range(range, items);
Ok(())
} else {
Err(vm.new_buffer_error(
"Existing exports of data: object cannot be re-sized".to_owned(),
))
};
}
if let Some(step) = step {
let slicelen = if range.end > range.start {
(range.end - range.start - 1) / step + 1
} else {
0
};
if slicelen == items.len() {
let indexes = if is_negative_step {
itertools::Either::Left(range.rev().step_by(step))
} else {
itertools::Either::Right(range.step_by(step))
};
self.do_replace_indexes(indexes, items);
Ok(())
} else {
Err(vm.new_buffer_error(
"Existing exports of data: object cannot be re-sized".to_owned(),
))
}
} else {
// edge case, step is too big for usize
// same behaviour as CPython
let slicelen = if range.start < range.end { 1 } else { 0 };
if match items.len() {
0 => slicelen == 0,
1 => {
self.do_set_range(range, items);
true
}
_ => false,
} {
Ok(())
} else {
Err(vm.new_buffer_error(
"Existing exports of data: object cannot be re-sized".to_owned(),
))
}
}
}
fn set_slice_items(
&mut self,
vm: &VirtualMachine,
slice: &PySlice,
items: &[Self::Item],
) -> PyResult<()> {
let (range, step, is_negative_step) = convert_slice(slice, self.as_slice().len(), vm)?;
if !is_negative_step && step == Some(1) {
self.do_set_range(range, items);
return Ok(());
}
if let Some(step) = step {
let slicelen = if range.end > range.start {
(range.end - range.start - 1) / step + 1
} else {
0
};
if slicelen == items.len() {
let indexes = if is_negative_step {
itertools::Either::Left(range.rev().step_by(step))
} else {
itertools::Either::Right(range.step_by(step))
};
self.do_replace_indexes(indexes, items);
Ok(())
} else {
Err(vm.new_value_error(format!(
"attempt to assign sequence of size {} to extended slice of size {}",
items.len(),
slicelen
)))
}
} else {
// edge case, step is too big for usize
// same behaviour as CPython
let slicelen = if range.start < range.end { 1 } else { 0 };
if match items.len() {
0 => slicelen == 0,
1 => {
self.do_set_range(range, items);
true
}
_ => false,
} {
Ok(())
} else {
Err(vm.new_value_error(format!(
"attempt to assign sequence of size {} to extended slice of size {}",
items.len(),
slicelen
)))
}
}
}
fn delete_slice(&mut self, vm: &VirtualMachine, slice: &PySlice) -> PyResult<()> {
let (range, step, is_negative_step) = convert_slice(slice, self.as_slice().len(), vm)?;
if range.start >= range.end {
return Ok(());
}
if !is_negative_step && step == Some(1) {
self.do_delete_range(range);
return Ok(());
}
// step is not negative here
if let Some(step) = step {
let indexes = if is_negative_step {
itertools::Either::Left(range.clone().rev().step_by(step).rev())
} else {
itertools::Either::Right(range.clone().step_by(step))
};
self.do_delete_indexes(range, indexes);
} else {
// edge case, step is too big for usize
// same behaviour as CPython
self.do_delete_range(range);
}
Ok(())
}
}
impl<T: Clone> PySliceableSequenceMut for Vec<T> {
type Item = T;
fn as_slice(&self) -> &[Self::Item] {
self.as_slice()
}
fn do_set_range(&mut self, range: Range<usize>, items: &[Self::Item]) {
self.splice(range, items.to_vec());
}
fn do_replace_indexes<I>(&mut self, indexes: I, items: &[Self::Item])
where
I: Iterator<Item = usize>,
{
for (i, item) in indexes.zip(items) {
self[i] = item.clone();
}
}
fn do_delete_range(&mut self, range: Range<usize>) {
self.drain(range);
}
fn do_delete_indexes<I>(&mut self, range: Range<usize>, indexes: I)
where
I: Iterator<Item = usize>,
{
let mut indexes = indexes.peekable();
let mut deleted = 0;
// passing whole range, swap or overlap
for i in range.clone() {
if indexes.peek() == Some(&i) {
indexes.next();
deleted += 1;
} else {
self.swap(i - deleted, i);
}
}
// then drain (the values to delete should now be contiguous at the end of the range)
self.drain((range.end - deleted)..range.end);
}
}
pub trait PySliceableSequence {
type Item;
type Sliced;
fn do_get(&self, index: usize) -> Self::Item;
fn do_slice(&self, range: Range<usize>) -> Self::Sliced;
fn do_slice_reverse(&self, range: Range<usize>) -> Self::Sliced;
fn do_stepped_slice(&self, range: Range<usize>, step: usize) -> Self::Sliced;
fn do_stepped_slice_reverse(&self, range: Range<usize>, step: usize) -> Self::Sliced;
fn empty() -> Self::Sliced;
fn len(&self) -> usize;
fn is_empty(&self) -> bool;
fn wrap_index(&self, p: isize) -> Option<usize> {
wrap_index(p, self.len())
}
fn saturate_index(&self, p: isize) -> usize {
saturate_index(p, self.len())
}
fn saturate_big_index(&self, slice_pos: &BigInt) -> usize {
saturate_big_index(slice_pos, self.len())
}
fn saturate_range(&self, start: &Option<BigInt>, stop: &Option<BigInt>) -> Range<usize> {
saturate_range(start, stop, self.len())
}
fn get_slice_items(&self, vm: &VirtualMachine, slice: &PySlice) -> PyResult<Self::Sliced> {
let (range, step, is_negative_step) = convert_slice(slice, self.len(), vm)?;
if range.start >= range.end {
return Ok(Self::empty());
}
if step == Some(1) {
return Ok(if is_negative_step {
self.do_slice_reverse(range)
} else {
self.do_slice(range)
});
}
if let Some(step) = step {
Ok(if is_negative_step {
self.do_stepped_slice_reverse(range, step)
} else {
self.do_stepped_slice(range, step)
})
} else {
Ok(self.do_slice(range))
}
}
fn get_item(
&self,
vm: &VirtualMachine,
needle: PyObjectRef,
owner_type: &'static str,
) -> PyResult<Either<Self::Item, Self::Sliced>> {
let needle = SequenceIndex::try_from_object_for(vm, needle, owner_type)?;
match needle {
SequenceIndex::Int(value) => {
let pos_index = self.wrap_index(value).ok_or_else(|| {
vm.new_index_error(format!("{} index out of range", owner_type))
})?;
Ok(Either::A(self.do_get(pos_index)))
}
SequenceIndex::Slice(slice) => Ok(Either::B(self.get_slice_items(vm, &slice)?)),
}
}
}
impl<T: Clone> PySliceableSequence for [T] {
type Item = T;
type Sliced = Vec<T>;
#[inline]
fn do_get(&self, index: usize) -> Self::Item {
self[index].clone()
}
#[inline]
fn do_slice(&self, range: Range<usize>) -> Self::Sliced {
self[range].to_vec()
}
#[inline]
fn do_slice_reverse(&self, range: Range<usize>) -> Self::Sliced {
let mut slice = self[range].to_vec();
slice.reverse();
slice
}
#[inline]
fn do_stepped_slice(&self, range: Range<usize>, step: usize) -> Self::Sliced {
self[range].iter().step_by(step).cloned().collect()
}
#[inline]
fn do_stepped_slice_reverse(&self, range: Range<usize>, step: usize) -> Self::Sliced {
self[range].iter().rev().step_by(step).cloned().collect()
}
#[inline(always)]
fn empty() -> Self::Sliced {
Vec::new()
}
#[inline(always)]
fn len(&self) -> usize {
self.len()
}
#[inline(always)]
fn is_empty(&self) -> bool {
self.is_empty()
}
}
pub enum SequenceIndex {
Int(isize),
Slice(PySliceRef),
}
impl SequenceIndex {
fn try_from_object_for(
vm: &VirtualMachine,
obj: PyObjectRef,
owner_type: &'static str,
) -> PyResult<Self> {
match_class!(match obj {
i @ PyInt => i
.borrow_value()
.to_isize()
.map(SequenceIndex::Int)
.ok_or_else(|| vm
.new_index_error("cannot fit 'int' into an index-sized integer".to_owned())),
s @ PySlice => Ok(SequenceIndex::Slice(s)),
obj => Err(vm.new_type_error(format!(
"{} indices must be integers or slices, not {}",
owner_type,
obj.class().name,
))),
})
}
}
impl TryFromObject for SequenceIndex {
fn try_from_object(vm: &VirtualMachine, obj: PyObjectRef) -> PyResult<Self> {
Self::try_from_object_for(vm, obj, "sequence")
}
}
/// Get the index into a sequence like type. Get it from a python integer
/// object, accounting for negative index, and out of bounds issues.
// pub fn get_sequence_index(vm: &VirtualMachine, index: &PyIntRef, length: usize) -> PyResult<usize> {
// if let Some(value) = index.borrow_value().to_i64() {
// if value < 0 {
// let from_end: usize = -value as usize;
// if from_end > length {
// Err(vm.new_index_error("Index out of bounds!".to_owned()))
// } else {
// let index = length - from_end;
// Ok(index)
// }
// } else {
// let index = value as usize;
// if index >= length {
// Err(vm.new_index_error("Index out of bounds!".to_owned()))
// } else {
// Ok(index)
// }
// }
// } else {
// Err(vm.new_index_error("cannot fit 'int' into an index-sized integer".to_owned()))
// }
// }
// Use PySliceableSequence::wrap_index for implementors
pub(crate) fn wrap_index(p: isize, len: usize) -> Option<usize> {
let neg = p.is_negative();
let p = p.abs().to_usize()?;
if neg {
len.checked_sub(p)
} else if p >= len {
None
} else {
Some(p)
}
}
// return pos is in range [0, len] inclusive
pub(crate) fn saturate_index(p: isize, len: usize) -> usize {
let mut p = p;
let len = len.to_isize().unwrap();
if p < 0 {
p += len;
if p < 0 {
p = 0;
}
}
if p > len {
p = len;
}
p as usize
}
fn saturate_big_index(slice_pos: &BigInt, len: usize) -> usize {
if let Some(pos) = slice_pos.to_isize() {
saturate_index(pos, len)
} else if slice_pos.is_negative() {
// slice past start bound, round to start
0
} else {
// slice past end bound, round to end
len
}
}
pub(crate) fn saturate_range(
start: &Option<BigInt>,
stop: &Option<BigInt>,
len: usize,
) -> Range<usize> {
let start = start.as_ref().map_or(0, |x| saturate_big_index(x, len));
let stop = stop.as_ref().map_or(len, |x| saturate_big_index(x, len));
start..stop
}
pub(crate) fn convert_slice(
slice: &PySlice,
len: usize,
vm: &VirtualMachine,
) -> PyResult<(Range<usize>, Option<usize>, bool)> {
let start = slice.start_index(vm)?;
let stop = slice.stop_index(vm)?;
let step = slice.step_index(vm)?.unwrap_or_else(BigInt::one);
if step.is_zero() {
return Err(vm.new_value_error("slice step cannot be zero".to_owned()));
}
let (start, stop, step, is_negative_step) = if step.is_negative() {
(
stop.map(|x| {
if x == -BigInt::one() {
len + BigInt::one()
} else {
x + 1
}
}),
start.map(|x| {
if x == -BigInt::one() {
BigInt::from(len)
} else {
x + 1
}
}),
-step,
true,
)
} else {
(start, stop, step, false)
};
let step = step.to_usize();
let range = saturate_range(&start, &stop, len);
let range = if range.start >= range.end {
range.start..range.start
} else {
// step overflow
if step.is_none() {
if is_negative_step {
(range.end - 1)..range.end
} else {
range.start..(range.start + 1)
}
} else {
range
}
};
Ok((range, step, is_negative_step))
}