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428 lines
16 KiB
Rust
428 lines
16 KiB
Rust
/*
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* meli - mailbox threading module.
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*
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* Copyright 2017 Manos Pitsidianakis
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*
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* This file is part of meli.
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*
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* meli is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* meli is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with meli. If not, see <http://www.gnu.org/licenses/>.
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*/
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use mailbox::email::*;
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use mailbox::Mailbox;
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use error::Result;
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extern crate fnv;
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use self::fnv::FnvHashMap;
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use std;
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type UnixTimestamp = i64;
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/// A `Container` struct is needed to describe the thread tree forest during creation of threads.
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/// Because of Rust's memory model, we store indexes of Envelopes inside a collection instead of
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/// references and every reference is passed through the `Container` owner (a `Vec<Container>`).
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//
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/// `message` refers to a `Envelope` entry in a `Vec`. If it's empty, the `Container` is
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/// nonexistent in our `Mailbox` but we know it exists (for example we have a copy
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/// of a reply to a mail but we don't have its copy.
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#[derive(Clone, Copy, Debug)]
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pub struct Container {
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id: usize,
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message: Option<usize>,
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parent: Option<usize>,
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first_child: Option<usize>,
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next_sibling: Option<usize>,
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date: UnixTimestamp,
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indentation: usize,
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show_subject: bool,
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}
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impl Container {
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pub fn get_message(&self) -> Option<usize> {
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self.message
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}
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pub fn get_parent(&self) -> Option<usize> {
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self.parent
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}
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pub fn has_parent(&self) -> bool {
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self.parent.is_some()
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}
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pub fn get_first_child(&self) -> Option<usize> {
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self.first_child
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}
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pub fn get_next_sibling(&self) -> Option<usize> {
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self.next_sibling
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}
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pub fn has_children(&self) -> bool {
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self.first_child.is_some()
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}
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pub fn has_sibling(&self) -> bool {
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self.next_sibling.is_some()
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}
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pub fn has_message(&self) -> bool {
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self.message.is_some()
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}
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fn set_indentation(&mut self, i: usize) {
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self.indentation = i;
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}
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pub fn get_indentation(&self) -> usize {
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self.indentation
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}
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fn is_descendant(&self, threads: &[Container], other: &Container) -> bool {
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if self == other {
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return true;
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}
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if let Some(v) = self.first_child {
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if threads[v].is_descendant(threads, other) {
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return true;
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}
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};
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if let Some(v) = self.next_sibling {
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if threads[v].is_descendant(threads, other) {
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return true;
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}
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};
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false
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}
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fn set_show_subject(&mut self, set: bool) -> () {
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self.show_subject = set;
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}
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pub fn get_show_subject(&self) -> bool {
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self.show_subject
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}
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}
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impl PartialEq for Container {
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fn eq(&self, other: &Container) -> bool {
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match (self.message, other.message) {
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(Some(s), Some(o)) => s == o,
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_ => self.id == other.id,
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}
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}
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}
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fn build_collection(
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threads: &mut Vec<Container>,
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id_table: &mut FnvHashMap<std::string::String, usize>,
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collection: &mut [Envelope],
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) -> () {
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for (i, x) in collection.iter_mut().enumerate() {
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let x_index; /* x's index in threads */
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let m_id = x.get_message_id_raw().to_string();
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/* TODO: Check for missing Message-ID.
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* Solutions: generate a hidden one
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*/
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if id_table.contains_key(&m_id) {
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let t = id_table[&m_id];
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/* the already existing Container should be empty, since we're
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* seeing this message for the first time */
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if threads[t].message.is_some() {
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/* skip duplicate message-id, but this should be handled instead */
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continue;
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}
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x_index = t;
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/* Store this message in the Container's message slot. */
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threads[t].date = x.get_date();
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x.set_thread(t);
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threads[t].message = Some(i);
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} else {
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/* Create a new Container object holding this message */
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x_index = threads.len();
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threads.push(Container {
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message: Some(i),
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id: x_index,
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parent: None,
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first_child: None,
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next_sibling: None,
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date: x.get_date(),
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indentation: 0,
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show_subject: true,
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});
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x.set_thread(x_index);
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id_table.insert(m_id, x_index);
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}
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/* For each element in the message's References field:
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*
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* Find a Container object for the given Message-ID:
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* If there's one in id_table use that;
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* Otherwise, make (and index) one with a null Message
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*
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* Link the References field's Container together in the order implied by the References header.
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* If they are already linked, don't change the existing links.
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* Do not add a link if adding that link would introduce a loop: that is, before asserting A->B, search down the children of B to see if A is reachable, and also search down the children of A to see if B is reachable. If either is already reachable as a child of the other, don't add the link.
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*/
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let mut curr_ref = x_index;
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let mut iasf = 0;
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for &r in x.get_references().iter().rev() {
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if iasf == 1 {
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continue;
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}
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iasf += 1;
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let parent_id = if id_table.contains_key(r.get_raw()) {
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let p = id_table[r.get_raw()];
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if !(threads[p].is_descendant(threads, &threads[curr_ref]) ||
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threads[curr_ref].is_descendant(threads, &threads[p]))
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{
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threads[curr_ref].parent = Some(p);
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if threads[p].first_child.is_none() {
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threads[p].first_child = Some(curr_ref);
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} else {
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let mut child_iter = threads[p].first_child.unwrap();
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while threads[child_iter].next_sibling.is_some() {
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threads[child_iter].parent = Some(p);
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child_iter = threads[child_iter].next_sibling.unwrap();
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}
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threads[child_iter].next_sibling = Some(curr_ref);
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threads[child_iter].parent = Some(p);
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}
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}
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p
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} else {
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let idx = threads.len();
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threads.push(Container {
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message: None,
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id: idx,
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parent: None,
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first_child: Some(curr_ref),
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next_sibling: None,
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date: x.get_date(),
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indentation: 0,
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show_subject: true,
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});
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if threads[curr_ref].parent.is_none() {
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threads[curr_ref].parent = Some(idx);
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}
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id_table.insert(r.get_raw().to_string(), idx);
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idx
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};
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/* update thread date */
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let mut parent_iter = parent_id;
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'date: loop {
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let p = &mut threads[parent_iter];
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if p.date < x.get_date() {
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p.date = x.get_date();
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}
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match p.parent {
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Some(p) => {
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parent_iter = p;
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}
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None => {
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break 'date;
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}
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}
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}
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curr_ref = parent_id;
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}
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}
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}
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/// Builds threads from a collection.
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pub fn build_threads(
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collection: &mut Vec<Envelope>,
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sent_folder: &Option<Result<Mailbox>>,
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) -> (Vec<Container>, Vec<usize>) {
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/* To reconstruct thread information from the mails we need: */
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/* a vector to hold thread members */
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let mut threads: Vec<Container> = Vec::with_capacity((collection.len() as f64 * 1.2) as usize);
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/* A hash table of Message IDs */
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let mut id_table: FnvHashMap<std::string::String, usize> =
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FnvHashMap::with_capacity_and_hasher(collection.len(), Default::default());
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/* Add each message to id_table and threads, and link them together according to the
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* References / In-Reply-To headers */
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build_collection(&mut threads, &mut id_table, collection);
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let mut idx = collection.len();
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let mut tidx = threads.len();
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/* Link messages from Sent folder if they are relevant to this folder.
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* This means that
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* - if a message from Sent is a reply to a message in this folder, we will
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* add it to the threading (but not the collection; non-threading users shouldn't care
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* about this)
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* - if a message in this folder is a reply to a message we sent, we will add it to the
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* threading
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*/
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if let Some(ref sent_box) = *sent_folder {
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if sent_box.is_ok() {
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let sent_mailbox = sent_box.as_ref();
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let sent_mailbox = sent_mailbox.unwrap();
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for x in &sent_mailbox.collection {
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if id_table.contains_key(x.get_message_id_raw()) ||
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(!x.get_in_reply_to_raw().is_empty() &&
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id_table.contains_key(x.get_in_reply_to_raw()))
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{
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let mut x: Envelope = (*x).clone();
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if id_table.contains_key(x.get_message_id_raw()) {
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let c = id_table[x.get_message_id_raw()];
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if threads[c].message.is_some() {
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/* skip duplicate message-id, but this should be handled instead */
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continue;
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}
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threads[c].message = Some(idx);
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assert!(threads[c].has_children());
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threads[c].date = x.get_date();
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x.set_thread(c);
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} else if !x.get_in_reply_to_raw().is_empty() &&
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id_table.contains_key(x.get_in_reply_to_raw())
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{
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let p = id_table[x.get_in_reply_to_raw()];
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let c = if id_table.contains_key(x.get_message_id_raw()) {
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id_table[x.get_message_id_raw()]
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} else {
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threads.push(Container {
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message: Some(idx),
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id: tidx,
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parent: Some(p),
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first_child: None,
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next_sibling: None,
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date: x.get_date(),
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indentation: 0,
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show_subject: true,
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});
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id_table.insert(x.get_message_id_raw().to_string(), tidx);
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x.set_thread(tidx);
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tidx += 1;
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tidx - 1
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};
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threads[c].parent = Some(p);
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if threads[p].is_descendant(&threads, &threads[c]) ||
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threads[c].is_descendant(&threads, &threads[p])
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{
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continue;
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}
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if threads[p].first_child.is_none() {
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threads[p].first_child = Some(c);
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} else {
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let mut fc = threads[p].first_child.unwrap();
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while threads[fc].next_sibling.is_some() {
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threads[fc].parent = Some(p);
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fc = threads[fc].next_sibling.unwrap();
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}
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threads[fc].next_sibling = Some(c);
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threads[fc].parent = Some(p);
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}
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/* update thread date */
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let mut parent_iter = p;
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'date: loop {
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let p = &mut threads[parent_iter];
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if p.date < x.get_date() {
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p.date = x.get_date();
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}
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match p.parent {
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Some(p) => {
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parent_iter = p;
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}
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None => {
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break 'date;
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}
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}
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}
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}
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collection.push(x);
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idx += 1;
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}
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}
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}
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}
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/* Walk over the elements of id_table, and gather a list of the Container objects that have
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* no parents. These are the root messages of each thread */
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let mut root_set = Vec::with_capacity(collection.len());
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'root_set: for v in id_table.values() {
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if threads[*v].parent.is_none() {
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if !threads[*v].has_message() && threads[*v].has_children() &&
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!threads[threads[*v].first_child.unwrap()].has_sibling()
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{
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/* Do not promote the children if doing so would promote them to the root set
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* -- unless there is only one child, in which case, do. */
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root_set.push(threads[*v].first_child.unwrap());
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continue 'root_set;
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}
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root_set.push(*v);
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}
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}
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root_set.sort_by(|a, b| threads[*b].date.cmp(&threads[*a].date));
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/* Group messages together by thread in a collection so we can print them together */
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let mut threaded_collection: Vec<usize> = Vec::with_capacity(collection.len());
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fn build_threaded(
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threads: &mut Vec<Container>,
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indentation: usize,
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threaded: &mut Vec<usize>,
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i: usize,
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root_subject_idx: usize,
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collection: &[Envelope],
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) {
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let thread = threads[i];
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if threads[root_subject_idx].has_message() {
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let root_subject =
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collection[threads[root_subject_idx].get_message().unwrap()].get_subject();
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/* If the Container has no Message, but does have children, remove this container but
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* promote its children to this level (that is, splice them in to the current child
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* list.) */
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if indentation > 0 && thread.has_message() {
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let subject = collection[thread.get_message().unwrap()].get_subject();
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if subject == root_subject ||
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subject.starts_with("Re: ") && subject.ends_with(root_subject)
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{
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threads[i].set_show_subject(false);
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}
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}
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}
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if thread.has_parent() && !threads[thread.get_parent().unwrap()].has_message() {
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threads[i].parent = None;
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}
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let indentation = if thread.has_message() {
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threads[i].set_indentation(indentation);
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if !threaded.contains(&i) {
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threaded.push(i);
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}
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indentation + 1
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} else if indentation > 0 {
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indentation
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} else {
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indentation + 1
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};
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if thread.has_children() {
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let mut fc = thread.get_first_child().unwrap();
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loop {
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build_threaded(threads, indentation, threaded, fc, i, collection);
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let thread_ = threads[fc];
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if !thread_.has_sibling() {
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break;
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}
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fc = thread_.get_next_sibling().unwrap();
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}
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}
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}
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for i in &root_set {
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build_threaded(
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&mut threads,
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0,
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&mut threaded_collection,
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*i,
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*i,
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collection,
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);
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}
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(threads, threaded_collection)
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}
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