//! Independent test for submission of a dummy TS implementation
//! withour adapters.
//!
//! Only applicable to the inventory-based registry.
#![cfg(feature = "inventory-registry")]

use dicom_encoding::{submit_ele_transfer_syntax, Codec, TransferSyntaxIndex};
use dicom_transfer_syntax_registry::TransferSyntaxRegistry;

// install this dummy as a private transfer syntax
submit_ele_transfer_syntax!(
    "1.2.840.10008.1.999.9999.99999",
    "Dummy Little Endian",
    Codec::EncapsulatedPixelData(None, None)
);

const ALWAYS_DUMMY: &str = "1.2.840.10008.1.999.9999.99999.2";

// install more dummy as a private transfer syntax
submit_ele_transfer_syntax!(
    ALWAYS_DUMMY,
    "Always Dummy Lossless Little Endian",
    Codec::EncapsulatedPixelData(None, None)
);

const FOREVER_DUMMY: &str = "1.2.840.10008.1.999.9999.99999.3";
const FOREVER_DUMMY_NAME: &str = "Forever Dummy Hierarchical Little Endian";

// install event more dummy as a private transfer syntax
submit_ele_transfer_syntax!(
    FOREVER_DUMMY,
    FOREVER_DUMMY_NAME,
    Codec::EncapsulatedPixelData(None, None)
);

#[test]
fn contains_stub_ts() {
    // contains our stub TS, not fully fully supported,
    // but enough to read some datasets
    let ts = TransferSyntaxRegistry.get("1.2.840.10008.1.999.9999.99999");
    assert!(ts.is_some());
    let ts = ts.unwrap();
    assert_eq!(ts.uid(), "1.2.840.10008.1.999.9999.99999");
    assert_eq!(ts.name(), "Dummy Little Endian");
    assert!(!ts.is_fully_supported());
    assert!(ts.is_unsupported_pixel_encapsulation());
    // can obtain a data set decoder
    assert!(ts.decoder().is_some());

    let ts = TransferSyntaxRegistry.get("1.2.840.10008.1.999.9999.99999.2");
    assert!(ts.is_some());
    let ts = ts.unwrap();
    assert_eq!(ts.name(), "Always Dummy Lossless Little Endian");
    let ts = TransferSyntaxRegistry.get("1.2.840.10008.1.999.9999.99999.3");
    assert!(ts.is_some());
    let ts = ts.unwrap();
    assert_eq!(ts.name(), "Forever Dummy Hierarchical Little Endian");
}