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|
//! This module implements the generation and insertion of item
//! derivation forests.
//!
//! This is used for the chain-rule machine to conveniently produce
//! item derivations into a forest. This forest can serve as a rough
//! approximation of the parse forests, and can be executed in other
//! semirings later on.
use super::*;
use crate::{
atom::{Atom, DefaultAtom},
default::Error,
item::default::DefaultForest,
Edge,
};
use grammar::{Error as GrammarError, GrammarLabel, GrammarLabelType, TNT};
use graph::Graph;
use std::borrow::Borrow;
/// Convert an error telling us that an index is out of bounds.
///
/// # Panics
///
/// The function panics if the error is not of the expected kind.
pub(crate) fn index_out_of_bounds_conversion(ge: GrammarError) -> Error {
match ge {
GrammarError::IndexOutOfBounds(index, bound) => Error::IndexOutOfBounds(index, bound),
_ => Error::Invalid,
}
}
/// Determine if a label is labelled by a terminal.
fn is_labelled_by_terminal(label: GrammarLabelType) -> bool {
matches!(label.tnt(), Some(tnt) if matches!(tnt, TNT::Ter(_)))
}
/// A helper function to generate a fragment of forest.
///
/// It simply constructs a root node and then appends
/// successive nodes as successive children of the previous
/// node. Also the starting positions will all be set to the
/// same position.
///
/// If the input is empty, this returns an empty forest;
/// otherwise the result is not empty.
pub fn generate_fragment(
labels: impl AsRef<[GrammarLabelType]>,
pos: usize,
) -> Result<DefaultForest<ForestLabel<GrammarLabel>>, crate::default::Error> {
let labels_slice = labels.as_ref();
let labels_len = labels_slice.len();
let last_label = if labels_len > 0 {
labels_slice.get(labels_len - 1).copied().unwrap()
} else {
return Ok(Default::default());
};
let labels_iter = labels_slice.iter();
let labels_iter_zipped = labels_iter
.clone()
.zip(labels_iter.skip(1).chain(std::iter::once(&last_label)));
let mut mapped_iter = labels_iter_zipped.map(|(label, next_label)| {
if is_labelled_by_terminal(*next_label) {
GrammarLabel::new_closed(*label, pos, pos + 1)
} else {
GrammarLabel::new(*label, pos)
}
});
let first_label = mapped_iter.next().unwrap();
let mut result = DefaultForest::new_leaf(first_label);
let mut index = 0;
for label in mapped_iter {
result.plant(index, DefaultForest::new_leaf(label), false)?;
index = result
.query_label(label.into())
// REVIEW: Perhaps a LabelNoNode error?
.ok_or(Error::Invalid)?;
}
Ok(result)
}
/// Generate a virtual fragment representing the left-linear null
/// closure \[nt\]^t.
pub fn virtual_generate_fragment(
atom: impl Borrow<DefaultAtom>,
nt: usize,
t: usize,
pos: usize,
) -> Result<DefaultForest<ForestLabel<GrammarLabel>>, crate::default::Error> {
let atom = atom.borrow();
let non_start = atom.nth_accumulator(nt).unwrap() * 2;
let mut result = DefaultForest::default();
for (label, child_iter) in atom.labels_of(non_start)? {
if matches!(*label.get_value(),
Some(TNT::Ter(ter)) if ter == t)
{
for child in child_iter {
let line: Vec<GrammarLabelType> = atom
.query_expansion(non_start, child)
.map_err(index_out_of_bounds_conversion)?
.iter()
.copied()
.flatten()
.flat_map(|(nt, rule)| [(*rule).into(), TNT::Non(*nt).into()])
.rev()
.chain(std::iter::once(TNT::Ter(t).into()))
.collect();
if result.is_empty() {
result = generate_fragment(line, pos)?;
} else {
let mut new_fragment = generate_fragment(line, pos)?;
new_fragment.remove_node(0)?;
new_fragment.set_root(1)?;
let cloned = result.clone_node(0, 0, false)?;
result.plant(cloned, new_fragment, false)?;
}
}
}
}
Ok(result)
}
impl DefaultForest<ForestLabel<GrammarLabel>> {
/// Insert an item derivation forest into a recording forest.
///
/// We need the help of other things just for finding the correct
/// places to insert these item fragments.
///
/// # Steps
///
/// This function performs the following steps.
///
/// # Extra reductions
///
/// If the label's true_source is different from its
/// forest_source, first splone the node of true_source, then
/// query the reducer by the key botop, whose bottom is
/// `true_source` and top is `forest_source`. The result is an
/// optional set of tuples (nt, rule) of unsigned integers. For
/// each tuple, find a parent which is labelled by `nt` and whose
/// parent is labelled by `rule`. Then proceed similarly.
///
/// # Reductions
///
/// Perform splone on the node of forest_source. Then query atom
/// for the reduction information by the key (label, atom_child),
/// where atom_child runs through every element of
/// atom_child_iter. The result is a list of unsigned integers.
/// For each unsigned integer `nt`, we find a parent which is
/// labelled by `nt`. The last parents found will be the parents
/// used in the next step.
///
/// # Plant
///
/// For parents as found in the previous step, for each node in
/// parents, perform splone with an open end, and then plant the
/// fragment under the result splone.
pub(crate) fn insert_item(
&mut self,
label: Edge,
ter: usize,
fragment: impl Borrow<DefaultForest<ForestLabel<GrammarLabel>>>,
atom_child_iter: impl Iterator<Item = usize> + ExactSizeIterator + Clone,
atom: &DefaultAtom,
) -> Result<PaVi, Error> {
let root = if let Some(root) = self.root() {
root
} else {
unreachable!("the forest must be non-empty when we insert items");
};
let pavi = label.forest_source();
let true_source = label.true_source();
let fragment = fragment.borrow();
let fragment_root = if let Some(root) = fragment.root() {
root
} else {
panic!("empty item");
};
let fragment_root_label = fragment
.vertex_label(fragment_root)?
.ok_or(Error::NodeNoLabel(fragment_root))?;
let pos = fragment_root_label.label().start();
// dbg!((pos, label));
// Whether or not to print detailed graphs of each step of
// operation for debugging purposes.
let mut to_print = false;
// let mut to_print = (11..=12).contains(&pos);
if std::fs::metadata("output/").is_err() {
to_print = false;
}
let tnt_string = {
let empty_p = atom_child_iter.len() == 0;
let label = fragment.vertex_label(fragment.nodes_len() - 1)?.unwrap();
match label.label().label() {
GrammarLabelType::TNT(TNT::Ter(t)) => {
format!("t {t}{}", if empty_p { " second" } else { "" })
}
GrammarLabelType::TNT(TNT::Non(n)) => {
format!("n {n}")
}
_ => "error".to_string(),
}
};
let num = {
let mut repetition = 0;
while std::fs::metadata(format!("output/pos {pos} - {repetition}.gv")).is_ok() {
repetition += 1;
}
repetition
};
if to_print {
self.print_viz(&format!("pos {pos} - {num}.gv")).unwrap();
}
/// A cute little macro to produce compact representations
/// of Parents, Virtual nodes, or empty.
#[allow(unused_macros)]
macro_rules! pavi_to_short_str {
($pavi:ident) => {
match $pavi {
PaVi::Parent(node, edge, child) => format!("p{node} {edge} {child}"),
PaVi::Virtual(nt, t, node) => format!("v{nt} {t} {node}"),
PaVi::Empty => "ε".to_string(),
}
};
}
// Ensure the last node in the PaVi is a terminal or a
// non-terminal node, as an extra safety guard during
// development.
#[cfg(debug_assertions)]
{
match pavi {
PaVi::Parent(_node, _edge, child) => {
assert!(matches!(
self.vertex_label(child),
Ok(Some(label))
if label.label().label().tnt().is_some()));
}
PaVi::Virtual(nt, t, node) => {
if !matches!(
self.vertex_label(node),
Ok(Some(label))
if matches!(
label.label().label().tnt(),
Some(TNT::Non(_))))
{
dbg!(node, self.vertex_label(node)?, pavi);
self.print_viz("dbg forest.gv").unwrap();
panic!("assumption fails");
}
if nt >= atom.non_num() {
dbg!();
return Err(Error::IndexOutOfBounds(nt, atom.non_num()));
}
if t >= atom.ter_num() {
dbg!();
return Err(Error::IndexOutOfBounds(t, atom.ter_num()));
}
}
PaVi::Empty => {}
}
}
let is_empty_segment = pavi.is_empty();
if true_source.is_virtual() {
self.close_pavi(atom.borrow(), true_source, pos)?;
if to_print {
self.print_viz(&format!(
"pos {pos} - {num} {tnt_string} stage 0.1 {}.gv",
pavi_to_short_str!(true_source)
))
.unwrap();
}
}
let mut parents: Vec<Parent> = {
let mut result = Vec::new();
match pavi {
PaVi::Parent(node, edge, _) => {
result.push(Parent::new(node, edge));
}
PaVi::Virtual(nt, t, node) => {
let node_label = self.vertex_label(node)?.ok_or(Error::NodeNoLabel(node))?;
for atom_child in atom_child_iter.clone() {
for rule in atom.trace(nt, t, atom_child).into_iter().flatten() {
let virtual_frag = atom.generate_virtual_frags(nt, t, Some(rule));
if let Some(frag) = virtual_frag {
let mut frag = (*frag.get(0).unwrap()).clone();
frag.set_pos(atom, node_label.label().start(), true)?;
let frag_nodes_len = frag.nodes_len();
assert!(frag_nodes_len > 1);
let last_but_one_label = frag
.vertex_label(frag_nodes_len - 2)?
.ok_or(Error::NodeNoLabel(frag_nodes_len - 2))?;
// NOTE: The function `plant_at_start`
// assumes that we want to plant the
// fragment as the first child of the
// node. This assumption holds in
// this case, but not in general.
self.plant_at_start(node, frag)?;
if to_print {
self.print_viz(&format!(
"pos {pos} - {num} {tnt_string} stage 0.2 {node}.gv"
))
.unwrap();
}
let rule_label_pos = self
.query_label(last_but_one_label)
.expect("the forest was wrongly planted");
result.push(Parent::new(rule_label_pos, 0));
}
}
}
}
PaVi::Empty => {
result.push(Parent::new(root, 0));
}
}
result
};
if let PaVi::Parent(node, edge, _) = pavi {
let nth_child = self.nth_child(node, edge)?;
let reduced = self.reduction(nth_child, pos, ter, atom.borrow(), false)?;
// dbg!(reduced, nth_child, self.is_empty_node(reduced)?);
if reduced != nth_child && !self.is_empty_node(reduced)? {
parents.clear();
parents.extend(self.parents_of(reduced)?);
}
if to_print {
self.print_viz(&format!(
"pos {pos} - {num} {tnt_string} stage 0.3 {nth_child}.gv"
))
.unwrap();
}
}
for parent in parents.iter() {
if !self.has_node(parent.node()) {
return Err(Error::IndexOutOfBounds(parent.node(), self.nodes_len()));
}
}
if !is_empty_segment {
parents = parents
.into_iter()
.flat_map(|parent| {
self.parents_of(parent.node()).unwrap().filter(|n| {
matches!(
self.vertex_label(n.node())
.unwrap()
.unwrap()
.label()
.label()
.tnt(),
Some(TNT::Non(_))
)
})
})
.collect();
}
// if pos == 12 {
// dbg!(num, &parents, pavi, label);
// }
let mut non_empty = false;
for atom_child in atom_child_iter {
// dbg!(label.label(), atom_child);
// Find reduction information.
let reduction_info = atom
.query_reduction(label.label(), atom_child)
.map_err(index_out_of_bounds_conversion)?;
let mut stack = parents.clone();
let mut second_stack = Vec::new();
// if pos == 9 {
// dbg!(&reduction_info);
// }
// locate the nodes
for reduction_nt in reduction_info.iter().copied().flatten().rev() {
while let Some(mut node) = stack.pop() {
let mut node_label = self
.vertex_label(node.node())?
.ok_or_else(|| Error::NodeNoLabel(node.node()))?;
// if pos == 9 {
// dbg!(node);
// }
if matches!(
node_label
.label()
.label(),
GrammarLabelType::TNT(TNT::Non(nt)) if nt == *reduction_nt
) {
let sploned_node =
self.splone(node.node(), Some(pos), node.edge(), false)?;
if to_print {
self.print_viz(&format!(
"pos {pos} - {num} {tnt_string} stage 1 {} {}.gv",
node.node(),
node.edge(),
))
.unwrap();
}
node_label = self
.vertex_label(sploned_node)?
.ok_or(Error::NodeNoLabel(sploned_node))?;
if node_label.clone_index().is_some() {
let mut parent_iter = self.parents_of(sploned_node)?;
#[cfg(debug_assertions)]
assert_eq!(parent_iter.len(), 1);
node = parent_iter.next().unwrap();
#[cfg(debug_assertions)]
assert!(self
.vertex_label(node.node())?
.ok_or(Error::NodeNoLabel(node.node()))?
.is_packed());
} else {
node = Parent::new(sploned_node, node.edge());
}
let parents_iter = self.parents_of(node.node())?;
for parent in parents_iter {
let parent_node = parent.node();
let parent_label = self
.vertex_label(parent_node)?
.ok_or(Error::NodeNoLabel(parent_node))?
.label();
if parent_label.label().rule().is_none() {
crate::item::default::print_labels(atom, self.borrow()).unwrap();
self.print_viz("dbg forest.gv").unwrap();
dbg!(parent, parent_label, label, node, sploned_node);
panic!("assumption fails");
}
second_stack.extend(self.parents_of(parent.node())?.filter(|n| {
matches!(self.vertex_label(n.node()),
Ok(Some(label))
if matches!(
label.label().label().tnt(),
Some(TNT::Non(_))))
}));
}
}
}
std::mem::swap(&mut stack, &mut second_stack);
if stack.is_empty() {
break;
}
}
if stack.is_empty() {
dbg!(
is_empty_segment,
label,
atom_child,
parents,
reduction_info,
atom.query_reduction(label.label(), atom_child).unwrap(),
atom.trace(0, 3, atom_child)
.into_iter()
.flatten()
.collect::<Vec<_>>(),
);
self.print_viz("dbg forest.gv").unwrap();
#[cfg(test)]
crate::item::default::print_labels(atom, self.borrow()).unwrap();
return Err(Error::CannotPlant);
}
// if pos == 9 {
// dbg!(&stack);
// }
for parent in stack {
let splanted = self.splant(parent.node(), parent.edge(), fragment, non_empty)?;
let _splanted_child = self.nth_child(splanted, self.degree(splanted)? - 1)?;
if to_print {
self.print_viz(&format!(
"pos {pos} - {num} {tnt_string} stage 2 {} {} {splanted}.gv",
parent.node(),
parent.edge(),
))
.unwrap();
}
non_empty = true;
}
}
// If the iterator is empty, assert the fragment has length
// one, and do not plant anything.
if !non_empty {
assert_eq!(fragment.nodes_len(), 1);
}
let result = if fragment.nodes_len() == 2 {
let root_label = fragment_root_label;
let leaf_label = fragment
.vertex_label(1 - fragment_root)?
.ok_or(Error::NodeNoLabel(1 - fragment_root))?;
// it has been planted, so should be safe.
let node = self
.query_label(root_label)
.expect("root label was not found");
let edge: usize;
let child: usize;
let mut result = None;
// dbg!(leaf_label, &fragment);
// crate::item::default::print_labels(atom, fragment).unwrap();
// dbg!(self.vertex_label(node)?);
for (index, child) in self.children_of(node)?.enumerate() {
// dbg!(self.vertex_label(child)?, child);
if matches!(self.vertex_label(child)?, Some(child_label) if child_label.label() == leaf_label.label())
{
result = Some((index, child));
break;
}
}
if let Some((index, edge_child)) = result {
edge = index;
child = edge_child;
} else {
unreachable!("the forest is wrongly planted");
}
// if pos == 11 {
// dbg!(root_label, node, edge, child);
// }
// dbg!(node, edge, root_label, leaf_label);
PaVi::Parent(node, edge, child)
} else {
assert_eq!(
fragment.nodes_len(),
1,
"a virtual fragment should consist of a single terminal node."
);
let root_label = fragment_root_label;
let pavi_parent = pavi.parent().expect(
"When we insert a virtual fragment, the forest_source of
the label must be a parent.",
);
let nth_child = self.nth_child(pavi_parent.node(), pavi_parent.edge())?;
let nth_child_label = self
.vertex_label(nth_child)?
.ok_or(Error::NodeNoLabel(nth_child))?
.label()
.label();
let error_str = "When we insert a virtual fragment, the \
forest source of the label must point to \
a non-terminal node";
let nt = match nth_child_label.tnt().expect(error_str) {
TNT::Non(nt) => nt,
_ => {
dbg!(nth_child, nth_child_label);
panic!("{error_str}");
}
};
let error_str = "a virtual fragment should consist of a single terminal node";
let t = match root_label.label().label().tnt().expect(error_str) {
TNT::Ter(t) => t,
_ => {
dbg!(root_label);
panic!("{error_str}")
}
};
PaVi::Virtual(nt, t, nth_child)
};
// let dbg_string = format!("pos {pos} - {num} {tnt_string} result {result}");
// dbg!(dbg_string);
Ok(result)
}
/// Set the end position of the node associated with `pavi` to be `pos`.
///
/// The parameter `atom` is used to query the reduction fragment
/// if `pavi` is a virtual node.
pub(crate) fn close_pavi(
&mut self,
atom: &DefaultAtom,
pavi: PaVi,
pos: usize,
) -> Result<usize, Error> {
match pavi {
PaVi::Parent(_node, _edge, child) => {
let nth_child = child;
let nth_child_label = self
.vertex_label(nth_child)?
.ok_or(Error::NodeNoLabel(nth_child))?;
let nth_child_degree = self.degree(nth_child)?;
let nth_child_last = core::cmp::max(nth_child_degree, 1) - 1;
if matches!(nth_child_label.label().label().tnt(), Some(TNT::Non(_)))
&& !nth_child_label.is_packed()
{
Ok(self.splone(nth_child, Some(pos), nth_child_last, false)?)
} else if nth_child_label.is_packed() {
// REVIEW: is this really correct?
dbg!("this should not really happen?");
// SUMMARY: splone every child of nth_child
let mut result: usize = nth_child;
for node in self.children_of(nth_child)?.collect::<Vec<_>>() {
let node_label =
self.vertex_label(node)?.ok_or(Error::NodeNoLabel(node))?;
let degree = self.degree(node)?;
let last_index = core::cmp::max(degree, 1) - 1;
if matches!(node_label.label().label().tnt(), Some(TNT::Non(_))) {
result = self.splone(node, Some(pos), last_index, false)?;
}
}
Ok(result)
} else {
Ok(nth_child)
}
}
PaVi::Virtual(nt, t, node) => {
let node_label = self
.vertex_label(node)?
.ok_or(Error::NodeNoLabel(node))?
.label();
let node_label_start = node_label.start();
let reduction_fragment = atom.generate_virtual_frags(nt, t, None);
// Maybe we do not have to force the reduciton here?
// // NOTE: the case of the root is exceptional
// if reduction_fragment.is_none() && self.root() != Some(node) {
// dbg!(self.root());
// self.print_viz("cannot close.gv").unwrap();
// return Err(Error::CannotClose(nt, t, node, node_label_start));
// }
for frag in reduction_fragment.into_iter().flatten() {
let mut frag = frag.clone();
let _root_closed_p = frag.set_pos(atom, node_label_start, true)?;
// NOTE: If the root is closed, planting it might
// affect the original node, but we shall not deal
// with this phenomenon here.
//
// Instead, we will ignore the extra node at later
// stages.
self.plant_at_start(node, frag)?;
}
Ok(node)
}
_ => self.root().ok_or(Error::IndexOutOfBounds(0, 0)),
}
}
}
#[cfg(test)]
mod genins_test {
use super::*;
use crate::item::default::leaf;
use grammar::test_grammar_helper::*;
#[test]
fn test_generate_fragment() -> Result<(), Box<dyn std::error::Error>> {
let grammar = new_notes_grammar()?;
let atom = DefaultAtom::from_grammar(grammar)?;
#[cfg(feature = "test-print-viz")]
atom.print_nfa("genins nfa.gv")?;
let fragment = generate_fragment([72.into(), TNT::Non(0).into()], 0)?;
let mut test_fragment = leaf!(
GrammarLabel::new(GrammarLabelType::from(72), 0),
GrammarLabel
);
test_fragment.plant(
0,
leaf!(
GrammarLabel::new(GrammarLabelType::from(TNT::Non(0)), 0),
GrammarLabel
),
false,
)?;
assert_eq!(fragment, test_fragment);
// virtual fragments
println!("nt = 0, t = 3");
let virtual_fragment = virtual_generate_fragment(&atom, 0, 3, 0)?;
assert_eq!(virtual_fragment.nodes_len(), 7);
let virtual_node = virtual_fragment.vertex_label(5)?.unwrap().label();
let test_fragment = generate_fragment(
[
TNT::Non(0).into(),
2.into(),
TNT::Non(1).into(),
8.into(),
TNT::Non(2).into(),
virtual_node.label(),
TNT::Ter(3).into(),
],
0,
)?;
crate::item::default::print_labels(&atom, &virtual_fragment)?;
assert_eq!(virtual_fragment, test_fragment);
#[cfg(feature = "test-print-viz")]
virtual_fragment.print_viz("virtual fragment (0, 3).gv")?;
println!("nt = 3, t = 2");
let virtual_fragment = virtual_generate_fragment(&atom, 3, 2, 1)?;
let test_fragment =
generate_fragment([TNT::Non(3).into(), 38.into(), TNT::Ter(2).into()], 1)?;
crate::item::default::print_labels(&atom, &virtual_fragment)?;
assert_eq!(virtual_fragment, test_fragment);
#[cfg(feature = "test-print-viz")]
virtual_fragment.print_viz("virtual fragment (3, 2).gv")?;
// querying reductions
assert!(matches!(atom.query_reduction(17, 9), Ok(Some(&[1]))));
// assert!(matches!(atom.query_reduction(35, 9), Ok(Some(&[1, 2]))));
// assert!(matches!(atom.query_reduction(35, 25), Ok(Some(&[2]))));
Ok(())
}
#[test]
fn test_reduction() -> Result<(), Box<dyn std::error::Error>> {
let grammar = new_paren_grammar()?;
let atom = DefaultAtom::from_grammar(grammar)?;
#[cfg(feature = "test-print-viz")]
atom.print_nfa("genins nfa.gv")?;
// querying reductions
println!("{:?}", atom.query_reduction(32, 17)?);
// assert!(matches!(atom.query_reduction(35, 25), Ok(Some(&[2]))));
Ok(())
}
}
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