[][src]Crate unstructured

This library provides types for usage with unstructured data. This is based on functionality from both serde_json and serde_value. Depending on your use case, it may make sense to use one of those instead.

These structures for serialization and deserialization into an intermediate container with serde and manipulation of this data while in this intermediate state.


So why not use one of the above libraries?

  • serde_json::value::Value is coupled with JSON serialization/deserialization pretty strongly. The purpose is to have an intermediate format for usage specifically with JSON. This can be a problem if you need something more generic (e.g. you need to support features that JSON does not) or do not wish to require dependence on JSON libraries. Document supports serialization to/from JSON without being limited to usage with JSON libraries.
  • serde_value::Value provides an intermediate format for serialization and deserialization like Document, however it does not provide as many options for manipulating the data such as indexing and easy type conversion.

In addition to many of the futures provided by the above libraries, unstructured also provides:

  • Easy usage of comparisons with primitive types, e.g. Unstructured<T>::U64(100) == 100 as u64
  • Easy merging of multiple documents: doc1.merge(doc2) or doc = doc1 + doc2
  • Selectors for retrieving nested values within a document without cloning: doc.select(".path.to.key")
  • Filters to create new documents from an array of input documents: docs.filter("[0].path.to.key | [1].path.to.array[0:5]")
  • Convenience methods for is_type(), as_type(), take_type()
  • Most of the From implementation for easy document creation

Example Usage

The primary struct used in this repo is Document. Document provides methods for easy type conversion and manipulation.

use unstructured::{Document, Number};
use std::collections::BTreeMap;

let mut map = BTreeMap::new(); // Will be inferred as BTreeMap<Document, Document> though root element can be any supported type
map.insert("test".into(), 100u64.into()); // From<> is implement for most basic data types
let doc: Document = map.into(); // Create a new Document where the root element is the map defined above
assert_eq!(doc["test"], Document::Number(Number::U64(100)));

Document implements serialize and deserialize so that it can be easily used where the data format is unknown and manipulated after it has been received.

extern crate serde;
use unstructured::Document;

#[derive(Deserialize, Serialize)]
struct SomeStruct {
    key: String,

fn main() {
    let from_service = "{\"key\": \"value\"}";
    let doc: Document = serde_json::from_str(from_service).unwrap();
    let expected: Document = "value".into();
    assert_eq!(doc["key"], expected);

    let some_struct: SomeStruct = doc.try_into().unwrap();
    assert_eq!(some_struct.key, "value");

    let another_doc = Document::new(some_struct).unwrap();
    assert_eq!(another_doc["key"], expected);

Selectors can be used to retrieve a reference to nested values, regardless of the incoming format.

  • JSON Pointer syntax: doc.select("/path/to/key")
  • A JQ inspired syntax: doc.select(".path.to.[\"key\"")
use unstructured::Document;

let doc: Document =
    serde_json::from_str("{\"some\": {\"nested\": {\"value\": \"is this value\"}}}").unwrap();
let doc_element = doc.select("/some/nested/value").unwrap(); // Returns an Option<Document>, None if not found
let expected: Document = "is this value".into();
assert_eq!(*doc_element, expected);

In addition to selectors, filters can be used to create new documents from an array of input documents.

  • Document selection: "[0]", "[1]", "*"
  • Path navigation: "[0].path.to.key" "[0] /path/to/key" r#" [0] .["path"].["to"].["key"] "#
  • Index selection: "[0] .array.[0]"
  • Sequence selection: "[0] .array.[0:0]" "[0] .array.[:]" "[0] .array.[:5]"
  • Filtering multiple docs: "[0].key | [1].key"
  • Merging docs: "*" "[0].key.to.merge | [1].add.this.key.too | [2].key.to.merge"
use unstructured::{Document, Number};

let docs: Vec<Document> = vec![
    serde_json::from_str(r#"{"some": {"nested": {"vals": [1,2,3]}}}"#).unwrap(),
    serde_json::from_str(r#"{"some": {"nested": {"vals": [4,5,6]}}}"#).unwrap(),
let result = Document::filter(&docs, "[0].some.nested.vals | [1].some.nested.vals").unwrap();
assert_eq!(result["some"]["nested"]["vals"][4], Document::Number(Number::U64(5)));









Type Definitions