aboutsummaryrefslogtreecommitdiffstats
path: root/src/subtokenize.rs
diff options
context:
space:
mode:
Diffstat (limited to 'src/subtokenize.rs')
-rw-r--r--src/subtokenize.rs166
1 files changed, 116 insertions, 50 deletions
diff --git a/src/subtokenize.rs b/src/subtokenize.rs
index c1a8435..adf843f 100644
--- a/src/subtokenize.rs
+++ b/src/subtokenize.rs
@@ -1,66 +1,132 @@
-use crate::content::string::string;
-use crate::tokenizer::{Code, Event, EventType, TokenType};
+use crate::content::content::start as content;
+use crate::content::string::start as string;
+use crate::tokenizer::{
+ Code, Event, EventType, State, StateFn, StateFnResult, TokenType, Tokenizer,
+};
use crate::util::{slice_codes, Span};
+use std::collections::HashMap;
pub fn subtokenize(events: Vec<Event>, codes: &[Code]) -> Vec<Event> {
let mut events = events;
let mut index = 0;
-
- // println!("before");
- // while index < events.len() {
- // let event = &events[index];
- // println!(
- // "ev1: {:?} {:?} {:?}",
- // event.event_type, event.token_type, index
- // );
- // index += 1;
- // }
- //
- // index = 0;
- //
- // println!("change");
+ // Map of first chunks its tokenizer.
+ let mut head_to_tokenizer: HashMap<usize, Tokenizer> = HashMap::new();
+ // Map of chunks to their head and corresponding range of events.
+ let mut link_to_info: HashMap<usize, (usize, usize, usize)> = HashMap::new();
while index < events.len() {
let event = &events[index];
- // println!(
- // "ev2: {:?} {:?} {:?}",
- // event.event_type, event.token_type, index
- // );
+ // Find each first opening chunk.
+ if (event.token_type == TokenType::ChunkString
+ || event.token_type == TokenType::ContentChunk) &&
+ event.event_type == EventType::Enter &&
+ // No need to enter linked events again.
+ event.previous == None
+ {
+ // Index into `events` pointing to a chunk.
+ let mut index_opt: Option<usize> = Some(index);
+ // Subtokenizer.
+ let mut tokenizer = Tokenizer::new(event.point.clone(), event.index);
+ // Substate.
+ let mut result: StateFnResult = (
+ State::Fn(Box::new(if event.token_type == TokenType::ContentChunk {
+ content
+ } else {
+ string
+ })),
+ None,
+ );
+ // Indices into `codes` of each end of chunk.
+ let mut ends: Vec<usize> = vec![];
- if event.event_type == EventType::Enter && event.token_type == TokenType::ChunkString {
- let exit = &events[index + 1];
+ // Loop through chunks to pass them in order to the subtokenizer.
+ while let Some(index_ptr) = index_opt {
+ let enter = &events[index_ptr];
+ let span = Span {
+ start_index: enter.index,
+ end_index: events[index_ptr + 1].index,
+ };
+ ends.push(span.end_index);
- assert_eq!(
- exit.event_type,
- EventType::Exit,
- "expected `enter` of `{:?}` to be follow by an `exit` event",
- event.token_type
- );
- assert_eq!(
- exit.token_type, event.token_type,
- "expected `exit` of `{:?}` to follow its `enter` event",
- event.token_type
- );
+ if enter.previous != None {
+ tokenizer.define_skip(&enter.point, span.start_index);
+ }
- let subevents = string(
- slice_codes(
- codes,
- &Span {
- start_index: event.index,
- end_index: exit.index,
- },
- ),
- event.point.clone(),
- event.index,
- );
- let len = subevents.len();
- // To do: recursion needed?
- events.splice(index..(index + 2), subevents);
- index += len;
- } else {
- index += 1;
+ let func: Box<StateFn> = match result.0 {
+ State::Fn(func) => func,
+ _ => unreachable!("cannot be ok/nok"),
+ };
+
+ result = tokenizer.feed(slice_codes(codes, &span), func, enter.next == None);
+
+ if let Some(ref x) = result.1 {
+ if !x.is_empty() {
+ // To do: handle?
+ unreachable!("subtokenize:remainder {:?}", x);
+ }
+ }
+
+ index_opt = enter.next;
+ }
+
+ // Now, loop through all subevents (and `ends`), to figure out
+ // which parts belong where.
+ // Current index.
+ let mut subindex = 0;
+ // Index into subevents that starts the current slice.
+ let mut last_start = 0;
+ // Counter into `ends`.
+ let mut end_index = 0;
+ let mut index_opt: Option<usize> = Some(index);
+
+ while subindex < tokenizer.events.len() {
+ let subevent = &tokenizer.events[subindex];
+
+ // Find the first event that starts after the end we’re looking
+ // for.
+ // To do: is this logic correct?
+ if subevent.event_type == EventType::Enter && subevent.index >= ends[end_index] {
+ let link = index_opt.unwrap();
+ link_to_info.insert(link, (index, last_start, subindex));
+
+ last_start = subindex;
+ end_index += 1;
+ index_opt = events[link].next;
+ }
+
+ subindex += 1;
+ }
+
+ let link = index_opt.unwrap();
+ link_to_info.insert(link, (index, last_start, subindex));
+ head_to_tokenizer.insert(index, tokenizer);
}
+
+ index += 1;
+ }
+
+ // Now that we fed everything into a tokenizer, and we know which parts
+ // belong where, the final task is to splice the events from each
+ // tokenizer into the current events.
+ // To do: instead of splicing, it might be possible to create a new `events`
+ // from each slice and slices from events?
+ let mut index = events.len() - 1;
+
+ while index > 0 {
+ let slice_opt = link_to_info.get(&index);
+
+ if let Some(slice) = slice_opt {
+ let (head, start, end) = *slice;
+ // If there’s a slice at this index, it must also point to a head,
+ // and that head must have a tokenizer.
+ let tokenizer = head_to_tokenizer.get(&head).unwrap();
+
+ // To do: figure out a way that moves instead of clones?
+ events.splice(index..(index + 2), tokenizer.events[start..end].to_vec());
+ }
+
+ index -= 1;
}
events