Named ID references.

This commit is contained in:
Elf M. Sternberg 2020-10-12 20:44:27 -07:00
parent 380d3f4a7c
commit bb841c7769
4 changed files with 403 additions and 21 deletions

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@ -15,6 +15,7 @@ friendly_id = "0.3.0"
thiserror = "1.0.20" thiserror = "1.0.20"
derive_builder = "0.9.0" derive_builder = "0.9.0"
lazy_static = "1.4.0" lazy_static = "1.4.0"
shrinkwraprs = "0.3.0"
regex = "1.3.9" regex = "1.3.9"
slug = "0.1.4" slug = "0.1.4"
tokio = { version = "0.2.22", features = ["rt-threaded", "blocking"] } tokio = { version = "0.2.22", features = ["rt-threaded", "blocking"] }

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@ -0,0 +1,366 @@
use crate::errors::NoteStoreError;
use crate::row_structs::{
JustId, JustSlugs, NewNote, NewNoteBuilder, NewPage, NewPageBuilder, RawNote, RawPage,
};
use friendly_id;
use lazy_static::lazy_static;
use regex::Regex;
use shrinkwraprs::Shrinkwrap;
use slug::slugify;
use sqlx;
use sqlx::{
sqlite::{Sqlite, SqlitePool},
Executor,
};
use std::sync::Arc;
#[derive(Shrinkwrap, Copy, Clone)]
struct ParentId(i64);
#[derive(Shrinkwrap, Copy, Clone)]
struct NoteId(i64);
/// A handle to our Sqlite database.
#[derive(Clone, Debug)]
pub struct NoteStore(Arc<SqlitePool>);
type NoteResult<T> = core::result::Result<T, NoteStoreError>;
type SqlResult<T> = sqlx::Result<T>;
impl NoteStore {
pub async fn new(url: &str) -> NoteResult<Self> {
let pool = SqlitePool::connect(url).await?;
Ok(NoteStore(Arc::new(pool)))
}
// Erase all the data in the database and restore it
// to its original empty form. Do not use unless you
// really, really want that to happen.
pub async fn reset_database(&self) -> NoteResult<()> {
reset_database(&*self.0)
.await
.map_err(NoteStoreError::DBError)
}
/// Fetch page by slug
///
/// Supports the use case of the user navigating to a known place
/// via a bookmark or other URL. Since the title isn't clear from
/// the slug, the slug is insufficient to generate a new page, so
/// this use case says that in the event of a failure to find the
/// requested page, return a basic NotFound.
pub async fn get_page_by_slug(&self, slug: &str) -> NoteResult<(RawPage, Vec<RawNote>)> {
// let select_note_collection_for_root = include_str!("sql/select_note_collection_for_root.sql");
let mut tx = self.0.begin().await?;
let page = select_page_by_slug(&mut tx, slug).await?;
// let notes = sqlx::query_as(select_note_collection_for_root)
// .bind(page.note_id)
// .fetch(&tx)
// .await?;
tx.commit().await?;
Ok((page, vec![]))
}
/// Fetch page by title
///
/// Supports the use case of the user navigating to a page via
/// the page's formal title. Since the title is the key reference
/// of the system, if no page with that title is found, a page with
/// that title is generated automatically.
pub async fn get_page_by_title(&self, title: &str) -> NoteResult<(RawPage, Vec<RawNote>)> {
let mut tx = self.0.begin().await?;
let (page, notes) = match select_page_by_title(&mut tx, title).await {
Ok(page) => {
let note_id = page.note_id;
(
page,
select_note_collection_from_root(&mut tx, note_id).await?,
)
}
Err(sqlx::Error::RowNotFound) => {
let page = {
let new_root_note = create_unique_root_note();
let new_root_note_id = insert_one_new_note(&mut tx, &new_root_note).await?;
let new_page_slug = generate_slug(&mut tx, title).await?;
let new_page = create_new_page_for(&title, &new_page_slug, new_root_note_id);
let _ = insert_one_new_page(&mut tx, &new_page).await?;
select_page_by_title(&mut tx, &title).await?
};
let note_id = page.note_id;
(
page,
select_note_collection_from_root(&mut tx, note_id).await?,
)
}
Err(e) => return Err(NoteStoreError::DBError(e)),
};
tx.commit().await?;
Ok((page, notes))
}
/// Insert a new note at the requested position under a parent note.
pub async fn insert_nested_note(
&self,
note: NewNote,
parent_note_uuid: &str,
position: i32,
) -> NoteResult<String> {
let mut new_note = note.clone();
new_note.uuid = friendly_id::create();
let mut tx = self.0.begin().await?;
let parent_id = select_note_id_for_uuid(&mut tx, parent_note_uuid).await?;
let new_note_id = insert_one_new_note(&mut tx, &new_note).await?;
let _ = make_room_for_new_note(&mut tx, parent_id, position).await?;
let _ = insert_note_note_relationship(&mut tx, parent_id, new_note_id, position).await?;
tx.commit().await?;
Ok(new_note.uuid)
}
pub async fn move_note(&self, note_uuid: &str, old_parent_note_uuid: &str, new_parent_note_uuid: &str, new_position: &str) -> NoteResult<()> {
// Get IDs of all things.
// Delete old note/parent relationship and tighten order
// Create new order under new parent
// Insert new note/parent relationship
todo!();
}
}
// ___ _ _
// | _ \_ _(_)_ ____ _| |_ ___
// | _/ '_| \ V / _` | _/ -_)
// |_| |_| |_|\_/\__,_|\__\___|
//
// I'm putting a lot of faith in Rust's ability to inline stuff. I'm
// sure this is okay. But really, this lets the API be clean and
// coherent and easily readable, and hides away the gnarliness of some
// of the SQL queries.
async fn reset_database<'a, E>(executor: E) -> SqlResult<()>
where
E: Executor<'a, Database = Sqlite>,
{
let initialize_sql = include_str!("sql/initialize_database.sql");
sqlx::query(initialize_sql)
.execute(executor)
.await
.map(|_| ())
}
async fn select_page_by_slug<'a, E>(executor: E, slug: &str) -> SqlResult<RawPage>
where
E: Executor<'a, Database = Sqlite>,
{
let select_one_page_by_slug_sql = concat!(
"SELECT id, title, slug, note_id, creation_date, updated_date, ",
"lastview_date, deleted_date FROM pages WHERE slug=?;"
);
Ok(sqlx::query_as(&select_one_page_by_slug_sql)
.bind(&slug)
.fetch_one(executor)
.await?)
}
async fn select_page_by_title<'a, E>(executor: E, title: &str) -> SqlResult<RawPage>
where
E: Executor<'a, Database = Sqlite>,
{
let select_one_page_by_title_sql = concat!(
"SELECT id, title, slug, note_id, creation_date, updated_date, ",
"lastview_date, deleted_date FROM pages WHERE title=?;"
);
Ok(sqlx::query_as(&select_one_page_by_title_sql)
.bind(&title)
.fetch_one(executor)
.await?)
}
async fn select_note_id_for_uuid<'a, E>(executor: E, uuid: &str) -> SqlResult<ParentId>
where
E: Executor<'a, Database = Sqlite>,
{
let select_note_id_for_uuid_sql = "SELECT id FROM notes WHERE uuid = ?";
let id: JustId = sqlx::query_as(&select_note_id_for_uuid_sql)
.bind(&uuid)
.fetch_one(executor)
.await?;
Ok(ParentId(id.id))
}
async fn make_room_for_new_note<'a, E>(
executor: E,
parent_id: ParentId,
position: i32,
) -> SqlResult<()>
where
E: Executor<'a, Database = Sqlite>,
{
let make_room_for_new_note_sql = concat!(
"UPDATE note_relationships ",
"SET position = position + 1 ",
"WHERE position >= ? and parent_id = ?;"
);
sqlx::query(make_room_for_new_note_sql)
.bind(&position)
.bind(&*parent_id)
.execute(executor)
.await
.map(|_| ())
}
async fn insert_note_note_relationship<'a, E>(
executor: E,
parent_id: ParentId,
note_id: NoteId,
position: i32,
) -> SqlResult<()>
where
E: Executor<'a, Database = Sqlite>,
{
let insert_note_note_relationship_sql = concat!(
"INSERT INTO note_relationships (parent_id, note_id, position, nature) ",
"values (?, ?, ?, ?)"
);
sqlx::query(insert_note_note_relationship_sql)
.bind(&*parent_id)
.bind(&*note_id)
.bind(&position)
.bind("note")
.execute(executor)
.await
.map(|_| ())
}
async fn select_note_collection_from_root<'a, E>(executor: E, root: i64) -> SqlResult<Vec<RawNote>>
where
E: Executor<'a, Database = Sqlite>,
{
let select_note_collection_from_root_sql =
include_str!("sql/select_note_collection_from_root.sql");
Ok(sqlx::query_as(&select_note_collection_from_root_sql)
.bind(&root)
.fetch_all(executor)
.await?)
}
async fn insert_one_new_note<'a, E>(executor: E, note: &NewNote) -> SqlResult<NoteId>
where
E: Executor<'a, Database = Sqlite>,
{
let insert_one_note_sql = concat!(
"INSERT INTO notes ( ",
" uuid, ",
" content, ",
" notetype, ",
" creation_date, ",
" updated_date, ",
" lastview_date) ",
"VALUES (?, ?, ?, ?, ?, ?);"
);
Ok(NoteId(
sqlx::query(insert_one_note_sql)
.bind(&note.uuid)
.bind(&note.content)
.bind(&note.notetype)
.bind(&note.creation_date)
.bind(&note.updated_date)
.bind(&note.lastview_date)
.execute(executor)
.await?
.last_insert_rowid(),
))
}
fn find_maximal_slug(slugs: &Vec<JustSlugs>) -> Option<u32> {
lazy_static! {
static ref RE_CAP_NUM: Regex = Regex::new(r"-(\d+)$").unwrap();
}
if slugs.len() == 0 {
return None;
}
let mut slug_counters: Vec<u32> = slugs
.iter()
.filter_map(|slug| RE_CAP_NUM.captures(&slug.slug))
.map(|cap| cap.get(1).unwrap().as_str().parse::<u32>().unwrap())
.collect();
slug_counters.sort_unstable();
slug_counters.pop()
}
// Given an initial string and an existing collection of slugs,
// generate a new slug that does not conflict with the current
// collection.
async fn generate_slug<'a, E>(executor: E, title: &str) -> SqlResult<String>
where
E: Executor<'a, Database = Sqlite>,
{
lazy_static! {
static ref RE_STRIP_NUM: Regex = Regex::new(r"-\d+$").unwrap();
}
let initial_slug = slugify(title);
let sample_slug = RE_STRIP_NUM.replace_all(&initial_slug, "");
let slug_finder_sql = "SELECT slug FROM pages WHERE slug LIKE '?%';";
let similar_slugs: Vec<JustSlugs> = sqlx::query_as(&slug_finder_sql)
.bind(&*sample_slug)
.fetch_all(executor)
.await?;
let maximal_slug = find_maximal_slug(&similar_slugs);
match maximal_slug {
None => Ok(initial_slug),
Some(max_slug) => Ok(format!("{}-{}", initial_slug, max_slug + 1)),
}
}
async fn insert_one_new_page<'a, E>(executor: E, page: &NewPage) -> SqlResult<i64>
where
E: Executor<'a, Database = Sqlite>,
{
let insert_one_page_sql = concat!(
"INSERT INTO pages ( ",
" slug, ",
" title, ",
" note_id, ",
" creation_date, ",
" updated_date, ",
" lastview_date) ",
"VALUES (?, ?, ?, ?, ?, ?);"
);
Ok(sqlx::query(insert_one_page_sql)
.bind(&page.slug)
.bind(&page.title)
.bind(&page.note_id)
.bind(&page.creation_date)
.bind(&page.updated_date)
.bind(&page.lastview_date)
.execute(executor)
.await?
.last_insert_rowid())
}
fn create_unique_root_note() -> NewNote {
NewNoteBuilder::default()
.uuid(friendly_id::create())
.content("".to_string())
.notetype("root".to_string())
.build()
.unwrap()
}
fn create_new_page_for(title: &str, slug: &str, note_id: NoteId) -> NewPage {
NewPageBuilder::default()
.slug(slug.to_string())
.title(title.to_string())
.note_id(*note_id)
.build()
.unwrap()
}

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@ -0,0 +1 @@
elf@elsa.12937:1599450965

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@ -5,6 +5,7 @@ use crate::row_structs::{
use friendly_id; use friendly_id;
use lazy_static::lazy_static; use lazy_static::lazy_static;
use regex::Regex; use regex::Regex;
use shrinkwraprs::Shrinkwrap;
use slug::slugify; use slug::slugify;
use sqlx; use sqlx;
use sqlx::{ use sqlx::{
@ -13,6 +14,12 @@ use sqlx::{
}; };
use std::sync::Arc; use std::sync::Arc;
#[derive(Shrinkwrap, Copy, Clone)]
struct ParentId(i64);
#[derive(Shrinkwrap, Copy, Clone)]
struct NoteId(i64);
/// A handle to our Sqlite database. /// A handle to our Sqlite database.
#[derive(Clone, Debug)] #[derive(Clone, Debug)]
pub struct NoteStore(Arc<SqlitePool>); pub struct NoteStore(Arc<SqlitePool>);
@ -91,6 +98,7 @@ impl NoteStore {
Ok((page, notes)) Ok((page, notes))
} }
/// Insert a new note at the requested position under a parent note.
pub async fn insert_nested_note( pub async fn insert_nested_note(
&self, &self,
note: NewNote, note: NewNote,
@ -159,7 +167,7 @@ where
.await?) .await?)
} }
async fn select_note_id_for_uuid<'a, E>(executor: E, uuid: &str) -> SqlResult<i64> async fn select_note_id_for_uuid<'a, E>(executor: E, uuid: &str) -> SqlResult<ParentId>
where where
E: Executor<'a, Database = Sqlite>, E: Executor<'a, Database = Sqlite>,
{ {
@ -168,10 +176,14 @@ where
.bind(&uuid) .bind(&uuid)
.fetch_one(executor) .fetch_one(executor)
.await?; .await?;
Ok(id.id) Ok(ParentId(id.id))
} }
async fn make_room_for_new_note<'a, E>(executor: E, parent_id: i64, position: i32) -> SqlResult<()> async fn make_room_for_new_note<'a, E>(
executor: E,
parent_id: ParentId,
position: i32,
) -> SqlResult<()>
where where
E: Executor<'a, Database = Sqlite>, E: Executor<'a, Database = Sqlite>,
{ {
@ -183,7 +195,7 @@ where
sqlx::query(make_room_for_new_note_sql) sqlx::query(make_room_for_new_note_sql)
.bind(&position) .bind(&position)
.bind(&parent_id) .bind(&*parent_id)
.execute(executor) .execute(executor)
.await .await
.map(|_| ()) .map(|_| ())
@ -191,8 +203,8 @@ where
async fn insert_note_note_relationship<'a, E>( async fn insert_note_note_relationship<'a, E>(
executor: E, executor: E,
parent_id: i64, parent_id: ParentId,
note_id: i64, note_id: NoteId,
position: i32, position: i32,
) -> SqlResult<()> ) -> SqlResult<()>
where where
@ -204,8 +216,8 @@ where
); );
sqlx::query(insert_note_note_relationship_sql) sqlx::query(insert_note_note_relationship_sql)
.bind(&parent_id) .bind(&*parent_id)
.bind(&note_id) .bind(&*note_id)
.bind(&position) .bind(&position)
.bind("note") .bind("note")
.execute(executor) .execute(executor)
@ -225,7 +237,7 @@ where
.await?) .await?)
} }
async fn insert_one_new_note<'a, E>(executor: E, note: &NewNote) -> SqlResult<i64> async fn insert_one_new_note<'a, E>(executor: E, note: &NewNote) -> SqlResult<NoteId>
where where
E: Executor<'a, Database = Sqlite>, E: Executor<'a, Database = Sqlite>,
{ {
@ -240,7 +252,8 @@ where
"VALUES (?, ?, ?, ?, ?, ?);" "VALUES (?, ?, ?, ?, ?, ?);"
); );
Ok(sqlx::query(insert_one_note_sql) Ok(NoteId(
sqlx::query(insert_one_note_sql)
.bind(&note.uuid) .bind(&note.uuid)
.bind(&note.content) .bind(&note.content)
.bind(&note.notetype) .bind(&note.notetype)
@ -249,7 +262,8 @@ where
.bind(&note.lastview_date) .bind(&note.lastview_date)
.execute(executor) .execute(executor)
.await? .await?
.last_insert_rowid()) .last_insert_rowid(),
))
} }
fn find_maximal_slug(slugs: &Vec<JustSlugs>) -> Option<u32> { fn find_maximal_slug(slugs: &Vec<JustSlugs>) -> Option<u32> {
@ -331,11 +345,11 @@ fn create_unique_root_note() -> NewNote {
.unwrap() .unwrap()
} }
fn create_new_page_for(title: &str, slug: &str, note_id: i64) -> NewPage { fn create_new_page_for(title: &str, slug: &str, note_id: NoteId) -> NewPage {
NewPageBuilder::default() NewPageBuilder::default()
.slug(slug.to_string()) .slug(slug.to_string())
.title(title.to_string()) .title(title.to_string())
.note_id(note_id) .note_id(*note_id)
.build() .build()
.unwrap() .unwrap()
} }