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//! This file provides a default implementation of the
//! [`Atom`][super::Atom] trait.

use super::*;
use grammar::Grammar;
use graph::{error::Error as GraphError, Graph, LabelExtGraph, LabelGraph};
use nfa::{
    default::{nfa::DefaultNFA, regex::DefaultRegex},
    LabelType, NfaLabel,
};

use core::fmt::Display;
use std::collections::BTreeMap as Map;

/// A virtual node represents the derivative of a non-terminal symbol
/// `S` with respect to a terminal symbol `t`.
#[derive(Debug, Clone, Copy, Eq, PartialEq, Hash, Ord, PartialOrd)]
struct VirtualNode {
    s: usize,
    t: usize,
}

impl Display for VirtualNode {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(f, "VN[{}]^({})", self.s, self.t)
    }
}

impl VirtualNode {
    fn new(s: usize, t: usize) -> Self {
        Self { s, t }
    }
}

type VirtualMap = Map<VirtualNode, usize>;

/// The type of atomic languages.
#[derive(Debug, Clone, Default)]
pub struct DefaultAtom {
    grammar: Grammar,
    nfa: DefaultNFA<LabelType<TNT>>,
    accepting_vec: Vec<bool>,
    // NOTE: This is mostly for printing and debugging
    regexp: Vec<DefaultRegex<TNT>>,
    virtual_nodes: VirtualMap,
}

impl DefaultAtom {
    /// Return the string description of a rule position.
    pub fn rule_pos_string(&self, pos: usize) -> Result<String, Box<dyn std::error::Error>> {
        if pos == self.grammar.total() {
            return Ok("End of rules".to_owned());
        }

        let rule_num = self.grammar.get_rule_num(pos)?;

        assert!(rule_num < self.grammar.non_num());

        let display_tnt = |tnt| {
            format!(
                " {} ",
                self.name_of_tnt(match tnt {
                    TNT::Non(_) => tnt,
                    TNT::Ter(t) => self.unpack_tnt(t).unwrap(),
                })
                .unwrap_or_else(|e| format!("{e}"))
            )
        };

        Ok(self.regexp.get(rule_num).unwrap().to_string_with_dot(
            display_tnt,
            if rule_num == 0 {
                pos
            } else {
                pos - self.grammar.nth_accumulator(rule_num)?
            },
        )?)
    }

    /// Print the underlying NFA.
    pub fn print_nfa<S: AsRef<str>>(&self, filename: S) -> Result<(), std::io::Error> {
        self.nfa.print_viz(filename.as_ref())?;

        let nullables: Vec<_> = self
            .accepting_vec
            .iter()
            .enumerate()
            .filter_map(|(index, pred)| if *pred { Some(index) } else { None })
            .collect();

        if !nullables.is_empty() {
            println!("nullables: {nullables:?}");
        }

        println!("printing virtual nodes:");
        for (vn, node) in self.virtual_nodes.iter() {
            println!("[{}]^{{({})}}: {}", vn.s, vn.t, node);
        }

        Ok(())
    }
}

impl Display for DefaultAtom {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        let grammar = &self.grammar;

        let error_to_string = |err| format!("{err}");
        let tnt_to_string = |tnt, deco| {
            grammar
                .name_of_tnt(tnt)
                .map(|name| format!("{deco}({name})"))
                .unwrap_or_else(error_to_string)
        };

        let display_tnt = |tnt| match tnt {
            TNT::Ter(t) => format!(
                "({})",
                grammar
                    .unpack_tnt(t)
                    .map(|tnt| tnt_to_string(tnt, ""))
                    .unwrap_or_else(error_to_string)
            ),
            TNT::Non(_) => tnt_to_string(tnt, "H"),
        };

        writeln!(f, "regular expressions:")?;

        let mut accumulators = Vec::with_capacity(self.regexp.len() + 1);
        accumulators.push(0usize);

        for regex in self.regexp.iter() {
            writeln!(f, "accumulator: {}", accumulators.last().unwrap())?;

            accumulators.push(regex.nodes_len() * 2 + accumulators.last().unwrap());

            let string = regex.to_string_with(display_tnt)?;

            writeln!(f, "{string}")?;
        }

        writeln!(f, "total = {}", accumulators.last().unwrap())?;

        writeln!(f, "virtual nodes:")?;

        for (virtual_node, index) in self.virtual_nodes.iter() {
            writeln!(f, "{virtual_node}: {index}")?;
        }

        Ok(())
    }
}

// Some boiler-plate delegation implementations for Graph and
// LabelGraph, in order to implement Nfa.

impl Graph for DefaultAtom {
    type Iter<'b> = <DefaultNFA<LabelType<TNT>> as Graph>::Iter<'b>
    where
        Self: 'b;

    fn is_empty(&self) -> bool {
        self.nfa.is_empty()
    }

    fn nodes_len(&self) -> usize {
        self.nfa.nodes_len()
    }

    fn children_of(&self, node_id: usize) -> Result<Self::Iter<'_>, GraphError> {
        self.nfa.children_of(node_id)
    }

    fn degree(&self, node_id: usize) -> Result<usize, GraphError> {
        self.nfa.degree(node_id)
    }

    fn is_empty_node(&self, node_id: usize) -> Result<bool, GraphError> {
        self.nfa.is_empty_node(node_id)
    }

    fn has_edge(&self, source: usize, target: usize) -> Result<bool, GraphError> {
        self.nfa.has_edge(source, target)
    }

    fn replace_by_builder(&mut self, _builder: impl graph::Builder<Result = Self>) {
        // NOTE: We cannot replace by a builder whose result is an
        // atom, not the underlying graph type.
        unimplemented!()
    }
}

impl LabelGraph<LabelType<TNT>> for DefaultAtom {
    type Iter<'b> = <DefaultNFA<LabelType<TNT>> as LabelGraph<LabelType<TNT>>>::Iter<'b>
    where
        Self: 'b;

    type LabelIter<'b> = <DefaultNFA<LabelType<TNT>> as LabelGraph<LabelType<TNT>>>::LabelIter<'b>
    where
        Self: 'b,
        DOption<TNT>: 'b;

    type EdgeLabelIter<'a> = <DefaultNFA<LabelType<TNT>> as LabelGraph<LabelType<TNT>>>::EdgeLabelIter<'a>
    where
        Self: 'a,
        DOption<TNT>: 'a;

    #[inline]
    fn vertex_label(&self, node_id: usize) -> Result<Option<LabelType<TNT>>, GraphError> {
        self.nfa.vertex_label(node_id)
    }

    #[inline]
    fn edge_label(
        &self,
        source: usize,
        target: usize,
    ) -> Result<Self::EdgeLabelIter<'_>, GraphError> {
        self.nfa.edge_label(source, target)
    }

    #[inline]
    fn find_children_with_label(
        &self,
        node_id: usize,
        label: &LabelType<TNT>,
    ) -> Result<<Self as LabelGraph<LabelType<TNT>>>::Iter<'_>, GraphError> {
        self.nfa.find_children_with_label(node_id, label)
    }

    #[inline]
    fn labels_of(&self, node_id: usize) -> Result<Self::LabelIter<'_>, GraphError> {
        self.nfa.labels_of(node_id)
    }

    #[inline]
    fn has_edge_label(
        &self,
        node_id: usize,
        label: &LabelType<TNT>,
        target: usize,
    ) -> Result<bool, GraphError> {
        self.nfa.has_edge_label(node_id, label, target)
    }
}

impl LabelExtGraph<LabelType<TNT>> for DefaultAtom {
    #[inline]
    fn extend(
        &mut self,
        edges: impl IntoIterator<Item = (LabelType<TNT>, usize)>,
    ) -> Result<usize, GraphError> {
        self.nfa.extend(edges)
    }
}

impl Nfa<LabelType<TNT>> for DefaultAtom {
    type FromRegex<S: graph::GraphLabel + std::fmt::Display + Default> = ();

    #[inline]
    fn to_nfa(
        _regexps: &[impl nfa::Regex<nfa::default::regex::RegexType<LabelType<TNT>>>],
        _sub_pred: impl Fn(LabelType<TNT>) -> Result<nfa::SoC<LabelType<TNT>>, nfa::error::Error>,
        _default: Option<LabelType<TNT>>,
    ) -> Result<Self::FromRegex<DOption<DOption<TNT>>>, nfa::error::Error> {
        // NOTE: We cannot construct an atom from a set of regular
        // languages alone.  So it is appropriate to panic here, if
        // one tries to do so, for some reason.
        unimplemented!()
    }

    #[inline]
    fn remove_dead(&mut self, reserve: impl FnMut(usize) -> bool) -> Result<(), nfa::error::Error> {
        self.nfa.remove_dead(reserve)
    }

    #[inline]
    fn closure(
        &mut self,
        predicate: impl FnMut(LabelType<TNT>) -> bool,
        remove_after_p: bool,
        transform: impl FnMut(nfa::TwoEdges<LabelType<TNT>>) -> LabelType<TNT>,
        remove_predicate: impl FnMut(LabelType<TNT>) -> bool,
    ) -> Result<(), nfa::error::Error> {
        self.nfa
            .closure(predicate, remove_after_p, transform, remove_predicate)
    }
}

impl DefaultAtom {
    /// Construct an atomic language from a grammar.
    pub fn from_grammar(mut grammar: Grammar) -> Result<Self, GrammarError> {
        grammar.compute_firsts()?;

        let regexp = grammar.left_closure()?;

        let mut nfa = grammar.left_closure_to_nfa(&regexp)?;

        use std::collections::{HashMap, HashSet};

        let accumulators: Vec<usize> = {
            let mut result = Vec::with_capacity(regexp.len() + 1);
            result.push(0);

            for regex in regexp.iter() {
                // Calling `unwrap` here is safe as `result` is always
                // non-empty.
                result.push(regex.nodes_len() * 2 + result.last().unwrap());
            }

            result
        };

        let accumulators_set: HashSet<usize> = accumulators.iter().copied().collect();

        let nullables: HashSet<usize> = (0..grammar.non_num())
            .filter(|n| matches!(grammar.is_nullable(*n), Ok(true)))
            .collect();

        // Now record accepting information.

        let nfa_len = nfa.nodes_len();

        let label_is_nullable = |label: NfaLabel<DOption<TNT>>| {
            if let Some(label) = *label.get_value() {
                matches!(label, TNT::Non(n) if nullables.contains(&n))
            } else {
                true
            }
        };

        let mut accepting_vec: Vec<bool> = std::iter::repeat(false).take(nfa_len).collect();

        for nfa_start in accumulators.iter().copied().take(regexp.len()) {
            *accepting_vec.get_mut(nfa_start + 1).unwrap() = true;
        }

        // The last is always accepting.
        *accepting_vec.get_mut(nfa_len - 1).unwrap() = true;

        let mut updated = true;

        while updated {
            updated = false;

            for node in nfa.nodes() {
                // skip those that do not need to be updated
                if *accepting_vec
                    .get(node)
                    .ok_or(GrammarError::IndexOutOfBounds(node, nfa_len))?
                {
                    continue;
                }

                'label_loop: for (label, target_iter) in nfa
                    .labels_of(node)
                    .map_err(|_| GrammarError::IndexOutOfBounds(node, nfa_len))?
                {
                    if label_is_nullable(*label) {
                        for target in target_iter {
                            if *accepting_vec
                                .get(target)
                                .ok_or(GrammarError::IndexOutOfBounds(target, nfa_len))?
                            {
                                // accepting_vec[node] must have been
                                // false, as we checked above
                                *accepting_vec.get_mut(node).unwrap() = true;
                                updated = true;

                                break 'label_loop;
                            }
                        }
                    }
                }
            }
        }

        // Perform nulling and remove_epsilon at the same time.
        nfa.closure(
            label_is_nullable,
            true,
            |two_edges| grammar.transform_label_null_epsilon(two_edges),
            |label| label.get_value().is_none(),
        )?;

        nfa.remove_dead(|node| accumulators_set.contains(&node))?;

        // Now add the virtual nodes.
        let mut virtual_nodes: VirtualMap = Default::default();

        let nt_num = grammar.non_num();

        assert!(nt_num <= accumulators.len());

        /// 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.
        fn index_out_of_bounds_conversion(ge: GraphError) -> GrammarError {
            match ge {
                GraphError::IndexOutOfBounds(index, bound) => {
                    GrammarError::IndexOutOfBounds(index, bound)
                }
                _ => unreachable!(),
            }
        }

        for nt in 0..nt_num {
            let children: std::collections::HashMap<_, _> = nfa
                // This is safe because of the above assertion.
                .labels_of(*accumulators.get(nt).unwrap())
                .map_err(index_out_of_bounds_conversion)?
                .map(|(label, target_iter)| (*label, target_iter))
                .collect();

            type TerminalsValue = (HashSet<(LabelType<TNT>, usize, Option<Vec<usize>>)>, bool);

            let mut terminals_map: HashMap<usize, TerminalsValue> = HashMap::new();

            for (label, children_iter) in children.into_iter() {
                if let Some(TNT::Ter(t)) = *label.get_value() {
                    let estimated_len = {
                        let mut result = 0;

                        for child in children_iter.clone() {
                            result += nfa.degree(child).map_err(index_out_of_bounds_conversion)?;
                        }

                        result
                    };

                    let mut accepting = false;

                    for child in children_iter {
                        accepting =
                            accepting
                                || *accepting_vec.get(child).ok_or(
                                    GrammarError::IndexOutOfBounds(child, accepting_vec.len()),
                                )?;

                        if let Some((_, old_accepting)) = terminals_map.get_mut(&t) {
                            *old_accepting = *old_accepting || accepting;
                        } else {
                            terminals_map
                                .insert(t, (HashSet::with_capacity(estimated_len), accepting));
                        }

                        for (child_label, child_children_iter) in nfa
                            .labels_of(child)
                            .map_err(index_out_of_bounds_conversion)?
                        {
                            // We checked this is safe above.
                            let (set, _) = terminals_map.get_mut(&t).unwrap();

                            set.extend(child_children_iter.map(|target| {
                                (
                                    *child_label,
                                    target,
                                    grammar
                                        .query_reduction(child, target)
                                        .unwrap()
                                        .map(|slice| slice.to_vec()),
                                )
                            }));
                        }
                    }
                }
            }

            for (t, (set, accepting)) in terminals_map.into_iter() {
                let new_index = nfa
                    .extend(set.iter().map(|(label, target, _)| (*label, *target)))
                    .map_err(index_out_of_bounds_conversion)?;

                if accepting_vec.get(new_index).is_none() {
                    #[cfg(debug_assertions)]
                    assert_eq!(new_index, accepting_vec.len());

                    accepting_vec.push(accepting);
                }

                let virtual_node = VirtualNode::new(nt, t);

                virtual_nodes.insert(virtual_node, new_index);

                // update the reduction information
                for (_, target, info) in set.into_iter() {
                    if let Some(info) = info {
                        if !matches!(
                            grammar.query_reduction(new_index, target)?,
                            Some(original_reduction)
                                if original_reduction.len()
                                >= info.len())
                        {
                            grammar.set_reduction(new_index, target, info);
                        }
                    }
                }
            }
        }

        Ok(Self {
            grammar,
            nfa,
            regexp,
            virtual_nodes,
            accepting_vec,
        })
    }
}

/// A convenient getter for the map of virtual nodes.
fn query(map: &VirtualMap, nt: usize, t: usize) -> Option<usize> {
    map.get(&VirtualNode::new(nt, t)).copied()
}

impl std::ops::Deref for DefaultAtom {
    type Target = Grammar;

    fn deref(&self) -> &Self::Target {
        &self.grammar
    }
}

impl Atom for DefaultAtom {
    fn atom(&self, nt: usize, t: usize) -> Result<Option<usize>, GrammarError> {
        if nt >= self.grammar.non_num() {
            return Err(GrammarError::IndexOutOfBounds(nt, self.grammar.non_num()));
        }

        if t >= self.grammar.ter_num() {
            return Err(GrammarError::IndexOutOfBounds(t, self.grammar.ter_num()));
        }

        Ok(query(&self.virtual_nodes, nt, t))
    }

    fn empty(&self) -> usize {
        self.grammar.total() << 1
    }

    fn is_accepting(&self, node_id: usize) -> Result<bool, GrammarError> {
        self.accepting_vec
            .get(node_id)
            .copied()
            .ok_or(GrammarError::IndexOutOfBounds(
                node_id,
                self.accepting_vec.len(),
            ))
    }
}