use crate::models::{Entry, Keyword, NewEntry, NewKeyword};
use diesel::pg::PgConnection;
use diesel::prelude::*;
use failure::{format_err, Error};
use std::borrow::Cow;
/// Maximum number of times we'll follow a `see: ` pointer.
const RECURSION_LIMIT: usize = 5;
pub struct KeywordDetails {
pub keyword: Keyword,
pub entries: Vec<Entry>,
}
impl KeywordDetails {
pub fn learn(&mut self, nick: &str, text: &str, dbc: &PgConnection) -> Result<usize, Error> {
let now = ::chrono::Utc::now().naive_utc();
let ins = NewEntry {
keyword_id: self.keyword.id,
idx: (self.entries.len() + 1) as _,
text,
creation_ts: now,
created_by: nick,
};
let new = {
use crate::schema::entries;
::diesel::insert_into(entries::table)
.values(ins)
.get_result(dbc)?
};
self.entries.push(new);
Ok(self.entries.len())
}
pub fn process_moves(&mut self, moves: &[(i32, i32)], dbc: &PgConnection) -> Result<(), Error> {
for (oid, new_idx) in moves {
{
use crate::schema::entries::dsl::*;
::diesel::update(entries.filter(id.eq(oid)))
.set(idx.eq(new_idx))
.execute(dbc)?;
}
}
self.entries = Self::get_entries(self.keyword.id, dbc)?;
Ok(())
}
pub fn swap(&mut self, idx_a: usize, idx_b: usize, dbc: &PgConnection) -> Result<(), Error> {
let mut moves = vec![];
for ent in self.entries.iter() {
if ent.idx == idx_a as i32 {
moves.push((ent.id, idx_b as i32));
}
if ent.idx == idx_b as i32 {
moves.push((ent.id, idx_a as i32));
}
}
if moves.len() != 2 {
Err(format_err!("Invalid swap operation."))?;
}
self.process_moves(&moves, dbc)?;
Ok(())
}
pub fn update(&mut self, idx: usize, val: &str, dbc: &PgConnection) -> Result<(), Error> {
let ent = self
.entries
.get_mut(idx.saturating_sub(1))
.ok_or(format_err!("No such element to update."))?;
{
use crate::schema::entries::dsl::*;
::diesel::update(entries.filter(id.eq(ent.id)))
.set(text.eq(val))
.execute(dbc)?;
}
ent.text = val.to_string();
Ok(())
}
pub fn delete(&mut self, idx: usize, dbc: &PgConnection) -> Result<(), Error> {
// step 1: delete the element
{
let ent = self
.entries
.get(idx.saturating_sub(1))
.ok_or(format_err!("No such element to delete."))?;
{
use crate::schema::entries::dsl::*;
::diesel::delete(entries.filter(id.eq(ent.id))).execute(dbc)?;
}
}
// step 2: move all the elements in front of it back one
let mut moves = vec![];
for ent in self.entries.iter() {
if idx > ent.idx as _ {
moves.push((ent.id, ent.idx.saturating_sub(1)));
}
}
self.process_moves(&moves, dbc)?;
Ok(())
}
pub fn add_zwsp_to_name(name: &str) -> Option<String> {
let second_index = name.char_indices().nth(1).map(|(i, _)| i)?;
let (start, end) = name.split_at(second_index);
Some(format!("{}{}", start, end))
}
pub fn format_entry(&self, idx: usize) -> Option<String> {
self.format_entry_colours(idx, true)
}
pub fn format_entry_colours(&self, idx: usize, with_colours: bool) -> Option<String> {
if let Some(ent) = self.entries.get(idx.saturating_sub(1)) {
let gen_clr = if self.keyword.chan == "*" && with_colours {
"\x0307"
} else {
""
};
let zwsp_name = Self::add_zwsp_to_name(&self.keyword.name)
.unwrap_or_else(|| self.keyword.name.clone());
Some(format!(
"{}{}{name}{}[{idx}/{total}]{}: {text} {}[{date}]{}",
if with_colours { "\x02" } else { "" },
gen_clr,
if with_colours { "\x0f\x0315" } else { "" },
if with_colours { "\x0f" } else { "" },
if with_colours { "\x0f\x0314" } else { "" },
if with_colours { "\x0f" } else { "" },
name = zwsp_name,
idx = idx,
total = self.entries.len(),
text = ent.text,
date = ent.creation_ts.date()
))
} else {
None
}
}
pub fn get_or_create(word: &str, c: &str, dbc: &PgConnection) -> Result<Self, Error> {
if let Some(ret) = Self::get(word, c, dbc)? {
Ok(ret)
} else {
Ok(Self::create(word, c, dbc)?)
}
}
pub fn create(word: &str, c: &str, dbc: &PgConnection) -> Result<Self, Error> {
let val = NewKeyword {
name: word,
chan: c,
};
let ret: Keyword = {
use crate::schema::keywords;
::diesel::insert_into(keywords::table)
.values(val)
.get_result(dbc)?
};
Ok(KeywordDetails {
keyword: ret,
entries: vec![],
})
}
fn get_entries(kid: i32, dbc: &PgConnection) -> Result<Vec<Entry>, Error> {
let entries: Vec<Entry> = {
use crate::schema::entries::dsl::*;
entries
.filter(keyword_id.eq(kid))
.order_by(idx.asc())
.load(dbc)?
};
Ok(entries)
}
fn get_inner<'a, T: Into<Cow<'a, str>>>(
word: T,
c: &str,
dbc: &PgConnection,
recursion_count: usize,
) -> Result<Option<Self>, Error> {
let word = word.into();
let keyword: Option<Keyword> = {
use crate::schema::keywords::dsl::*;
keywords
.filter(name.ilike(word).and(chan.eq(c).or(chan.eq("*"))))
.first(dbc)
.optional()?
};
if let Some(k) = keyword {
let entries = Self::get_entries(k.id, dbc)?;
if let Some(e0) = entries.get(0) {
if e0.text.starts_with("see: ") {
if recursion_count > RECURSION_LIMIT {
// Oh dear.
Err(format_err!("Halt. You're having a bit too much fun."))?
}
let new_word = e0.text.replace("see: ", "");
return Self::get_inner(new_word, c, dbc, recursion_count + 1);
}
}
Ok(Some(KeywordDetails {
keyword: k,
entries,
}))
} else {
Ok(None)
}
}
pub fn get<'a, T: Into<Cow<'a, str>>>(
word: T,
c: &str,
dbc: &PgConnection,
) -> Result<Option<Self>, Error> {
Self::get_inner(word, c, dbc, 0)
}
}