db/tst/tests/basic_test.rs

use std::env::temp_dir;
use std::fs;
use std::time::SystemTime;
use tst::TST;

fn get_test_db_path() -> String {
    let timestamp = SystemTime::now()
        .duration_since(SystemTime::UNIX_EPOCH)
        .unwrap()
        .as_nanos();

    let path = temp_dir().join(format!("tst_test_{}", timestamp));

    // If the path exists, remove it first
    if path.exists() {
        let _ = fs::remove_dir_all(&path);
    }

    // Create the directory
    fs::create_dir_all(&path).unwrap();

    path.to_string_lossy().to_string()
}

fn cleanup_test_db(path: &str) {
    // Make sure to clean up properly
    let _ = fs::remove_dir_all(path);
}

#[test]
fn test_create_tst() {
    let path = get_test_db_path();

    let result = TST::new(&path, true);
    match &result {
        Ok(_) => (),
        Err(e) => println!("Error creating TST: {:?}", e),
    }
    assert!(result.is_ok());

    if let Ok(mut tst) = result {
        // Make sure we can perform a basic operation
        let set_result = tst.set("test_key", b"test_value".to_vec());
        assert!(set_result.is_ok());
    }

    cleanup_test_db(&path);
}

#[test]
fn test_set_and_get() {
    let path = get_test_db_path();

    // Create a new TST with reset=true to ensure a clean state
    let result = TST::new(&path, true);
    assert!(result.is_ok());

    let mut tree = result.unwrap();

    // Test setting and getting a key
    let key = "test_key";
    let value = b"test_value".to_vec();

    let set_result = tree.set(key, value.clone());
    assert!(set_result.is_ok());

    let get_result = tree.get(key);
    assert!(get_result.is_ok());
    assert_eq!(get_result.unwrap(), value);

    // Make sure to clean up properly
    cleanup_test_db(&path);
}

#[test]
fn test_get_nonexistent_key() {
    let path = get_test_db_path();

    let mut tree = TST::new(&path, true).unwrap();

    // Test getting a key that doesn't exist
    let get_result = tree.get("nonexistent_key");
    assert!(get_result.is_err());

    cleanup_test_db(&path);
}

#[test]
fn test_delete() {
    let path = get_test_db_path();

    // Create a new TST with reset=true to ensure a clean state
    let result = TST::new(&path, true);
    assert!(result.is_ok());

    let mut tree = result.unwrap();

    // Set a key
    let key = "delete_test";
    let value = b"to_be_deleted".to_vec();

    let set_result = tree.set(key, value);
    assert!(set_result.is_ok());

    // Verify it exists
    let get_result = tree.get(key);
    assert!(get_result.is_ok());

    // Delete it
    let delete_result = tree.delete(key);
    assert!(delete_result.is_ok());

    // Verify it's gone
    let get_after_delete = tree.get(key);
    assert!(get_after_delete.is_err());

    // Make sure to clean up properly
    cleanup_test_db(&path);
}

#[test]
fn test_multiple_keys() {
    let path = get_test_db_path();

    // Create a new TST with reset=true to ensure a clean state
    let result = TST::new(&path, true);
    assert!(result.is_ok());

    let mut tree = result.unwrap();

    // Insert multiple keys - use fewer keys to avoid filling the lookup table
    let keys = ["apple", "banana", "cherry"];

    for (i, key) in keys.iter().enumerate() {
        let value = format!("value_{}", i).into_bytes();
        let set_result = tree.set(key, value);

        // Print error if set fails
        if set_result.is_err() {
            println!("Error setting key '{}': {:?}", key, set_result);
        }

        assert!(set_result.is_ok());
    }

    // Verify all keys exist
    for (i, key) in keys.iter().enumerate() {
        let expected_value = format!("value_{}", i).into_bytes();
        let get_result = tree.get(key);
        assert!(get_result.is_ok());
        assert_eq!(get_result.unwrap(), expected_value);
    }

    // Make sure to clean up properly
    cleanup_test_db(&path);
}

#[test]
fn test_list_prefix() {
    let path = get_test_db_path();

    // Create a new TST with reset=true to ensure a clean state
    let result = TST::new(&path, true);
    assert!(result.is_ok());

    let mut tree = result.unwrap();

    // Insert keys with common prefixes - use fewer keys to avoid filling the lookup table
    let keys = ["apple", "application", "append", "banana", "bandana"];

    for key in &keys {
        let set_result = tree.set(key, key.as_bytes().to_vec());
        assert!(set_result.is_ok());
    }

    // Test prefix "app"
    let list_result = tree.list("app");
    assert!(list_result.is_ok());

    let app_keys = list_result.unwrap();

    // Print the keys for debugging
    println!("Keys with prefix 'app':");
    for key in &app_keys {
        println!("  {}", key);
    }

    // Check that each key is present
    assert!(app_keys.contains(&"apple".to_string()));
    assert!(app_keys.contains(&"application".to_string()));
    assert!(app_keys.contains(&"append".to_string()));

    // Test prefix "ban"
    let list_result = tree.list("ban");
    assert!(list_result.is_ok());

    let ban_keys = list_result.unwrap();
    assert!(ban_keys.contains(&"banana".to_string()));
    assert!(ban_keys.contains(&"bandana".to_string()));

    // Test non-existent prefix
    let list_result = tree.list("z");
    assert!(list_result.is_ok());

    let z_keys = list_result.unwrap();
    assert_eq!(z_keys.len(), 0);

    // Make sure to clean up properly
    cleanup_test_db(&path);
}

#[test]
fn test_getall_prefix() {
    let path = get_test_db_path();

    // Create a new TST with reset=true to ensure a clean state
    let result = TST::new(&path, true);
    assert!(result.is_ok());

    let mut tree = result.unwrap();

    // Insert keys with common prefixes - use fewer keys to avoid filling the lookup table
    let keys = ["apple", "application", "append"];

    for key in &keys {
        let set_result = tree.set(key, key.as_bytes().to_vec());
        assert!(set_result.is_ok());
    }

    // Test getall with prefix "app"
    let getall_result = tree.getall("app");
    assert!(getall_result.is_ok());

    let app_values = getall_result.unwrap();

    // Convert values to strings for easier comparison
    let app_value_strings: Vec<String> = app_values
        .iter()
        .map(|v| String::from_utf8_lossy(v).to_string())
        .collect();

    // Print the values for debugging
    println!("Values with prefix 'app':");
    for value in &app_value_strings {
        println!("  {}", value);
    }

    // Check that each value is present
    assert!(app_value_strings.contains(&"apple".to_string()));
    assert!(app_value_strings.contains(&"application".to_string()));
    assert!(app_value_strings.contains(&"append".to_string()));

    // Make sure to clean up properly
    cleanup_test_db(&path);
}

#[test]
fn test_empty_prefix() {
    let path = get_test_db_path();

    // Create a new TST with reset=true to ensure a clean state
    let result = TST::new(&path, true);
    assert!(result.is_ok());

    let mut tree = result.unwrap();

    // Insert some keys
    let keys = ["apple", "banana", "cherry"];

    for key in &keys {
        let set_result = tree.set(key, key.as_bytes().to_vec());
        assert!(set_result.is_ok());
    }

    // Test list with empty prefix (should return all keys)
    let list_result = tree.list("");
    assert!(list_result.is_ok());

    let all_keys = list_result.unwrap();

    // Print the keys for debugging
    println!("Keys with empty prefix:");
    for key in &all_keys {
        println!("  {}", key);
    }

    // Check that each key is present
    for key in &keys {
        assert!(all_keys.contains(&key.to_string()));
    }

    // Make sure to clean up properly
    cleanup_test_db(&path);
}