indicium 0.2.2

Simple in-memory search for collections and key-value stores.
Documentation 
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# Indicium Search


A simple in-memory search for collections (Vec, HashMap, BTreeMap, etc) and
key-value stores. Features autocompletion.

There are many incredible search engines available for Rust. Many seem to
require compiling a separate server binary. I wanted something simple, light
weight, easy to use, and that could conveniently search structs and collections.
So I have made `indicium`.

# Quick Start Guide


For our **Quick Start Guide** example, we will be searching inside of the
following `struct`:

```rust
struct MyStruct {
    title: String,
    year: u16,
    body: String,
}
```

## 1. Implementing Indexable


To begin, we must make our record indexable. We'll do this by implementing the
`Indexable` trait for our `struct`. The idea is to return a `String` for every
field that we would like to be indexed. Example:

```rust
use indicium::simple::Indexable;

impl Indexable for MyStruct {
    fn strings(&self) -> Vec<String> {
        vec![
            self.title.clone(),
            self.year.to_string(),
            self.body.clone(),
        ]
    }
}
```

Don't forget that you may make numbers, numeric identifiers, enums, and other
types indexable by converting them to a `String` and including them in the
returned `Vec<String>`.

## 2. Indexing a Collection


To index an existing collection, we can iterate over the collection. For each
record, we will insert it into the search index. This should look something
like these two examples:

#### Vec


```rust
use indicium::simple::SearchIndex;

let my_vec: Vec<MyStruct> = Vec::new();

// In the case of a `Vec` collection, we use the index as our key.  A
// `Vec` index is a `usize` type. Therefore we will instantiate
// `SearchIndex` as `SearchIndex<usize>`.

let mut search_index: SearchIndex<usize> = SearchIndex::default();

my_vec
    .iter()
    .enumerate()
    .for_each(|(index, element)|
        search_index.insert(&index, element)
    );
```

#### HashMap


```rust
use std::collections::HashMap;
use indicium::simple::SearchIndex;

let my_hash_map: HashMap<String, MyStruct> = HashMap::new();

// In the case of a `HashMap` collection, we use the hash map's key as
// the `SearchIndex` key. In our hypothetical example, we will use
// MyStruct's `title` as a the key which is a `String` type. Therefore
// we will instantiate `HashMap<K, V>` as HashMap<String, MyStruct> and
// `SearchIndex<K>` as `SearchIndex<String>`.

let mut search_index: SearchIndex<String> = SearchIndex::default();

my_hash_map
    .iter()
    .for_each(|(key, value)|
        search_index.insert(key, value)
    );
```

As long as the `Indexable` trait was implemented for your value type, the above
examples will index a previously populated `Vec` or `HashMap`. However, the
preferred method for large collections is to `insert` into the `SearchIndex` as
you insert into your collection (Vec, HashMap, etc.)

Once the index has been populated, you can use the `autocomplete` and `search`
functions.

## 3. Searching


The `search` function will return keys as the search results. Each resulting
key can then be used to retrieve the full record from its collection.

Search only supports exact keyword matches and does not use fuzzy matching.
Consider providing the `autocomplete` feature to your users as an ergonomic
alternative to fuzzy matching.

Basic usage:

```rust
let mut search_index: SearchIndex<usize> = SearchIndex::default();

search_index.insert(&0, &MyType::from("Harold Godwinson"));
search_index.insert(&1, &MyType::from("Edgar Ætheling"));
search_index.insert(&2, &MyType::from("William the Conqueror"));
search_index.insert(&3, &MyType::from("William Rufus"));
search_index.insert(&4, &MyType::from("Henry Beauclerc"));

let resulting_keys: Vec<&usize> =
    search_index.search("William");

assert_eq!(resulting_keys, vec![&2, &3]);
```

## 5. Autocompletion


The `autocomplete` function will provide several autocompletion options for the
last keyword in the supplied string.

Basic usage:

```rust
let mut search_index: SearchIndex<usize> = SearchIndex::default();

search_index.insert(&0, &MyType::from("apple"));
search_index.insert(&1, &MyType::from("birthday"));
search_index.insert(&2, &MyType::from("bird"));
search_index.insert(&3, &MyType::from("bath"));
search_index.insert(&4, &MyType::from("truck"));
search_index.insert(&5, &MyType::from("ball"));
search_index.insert(&6, &MyType::from("red"));

let mut search_index: SearchIndex<usize> =
    SearchIndexBuilder::default()
        .autocomplete_type(&AutocompleteType::Global)
        .build();

assert_eq!(
    autocomplete_options,
    vec!["a very big bird", "a very big birthday"]
);
```