Kordophone/kordophone-db/src/tests/mod.rs

use crate::{
    database::{Database, DatabaseAccess},
    repository::Repository, 
    models::{
        conversation::{Conversation, ConversationBuilder},
        participant::Participant,
        message::Message,
    }, 
    settings::Settings,
};

// Helper function to compare participants ignoring database IDs
fn participants_equal_ignoring_id(a: &Participant, b: &Participant) -> bool {
    match (a, b) {
        (Participant::Me, Participant::Me) => true,
        (Participant::Remote { display_name: name_a, .. }, 
         Participant::Remote { display_name: name_b, .. }) => name_a == name_b,
        _ => false
    }
}

fn participants_vec_equal_ignoring_id(a: &[Participant], b: &[Participant]) -> bool {
    if a.len() != b.len() {
        return false;
    }
    a.iter().zip(b.iter()).all(|(a, b)| participants_equal_ignoring_id(a, b))
}

#[tokio::test]
async fn test_database_init() {
    let _ = Database::new_in_memory().unwrap();
}

#[tokio::test]
async fn test_add_conversation() {
    let mut db = Database::new_in_memory().unwrap();
    db.with_repository(|repository| {
        let guid = "test";
        let test_conversation = Conversation::builder()
            .guid(guid)
            .unread_count(2)
            .display_name("Test Conversation")
            .build();

        repository.insert_conversation(test_conversation.clone()).unwrap();

        // Try to fetch with id now 
        let conversation = repository.get_conversation_by_guid(guid).unwrap().unwrap();
        assert_eq!(conversation.guid, "test");

        // Modify the conversation and update it
        let modified_conversation = test_conversation.into_builder()
            .display_name("Modified Conversation")
            .build();

        repository.insert_conversation(modified_conversation.clone()).unwrap();

        // Make sure we still only have one conversation. 
        let all_conversations = repository.all_conversations().unwrap();
        assert_eq!(all_conversations.len(), 1);

        // And make sure the display name was updated 
        let conversation = repository.get_conversation_by_guid(guid).unwrap().unwrap();
        assert_eq!(conversation.display_name.unwrap(), "Modified Conversation");
    }).await;
}

#[tokio::test]
async fn test_conversation_participants() {
    let mut db = Database::new_in_memory().unwrap();
    db.with_repository(|repository| {
        let participants: Vec<Participant> = vec!["one".into(), "two".into()];

        let guid = uuid::Uuid::new_v4().to_string();
        let conversation = ConversationBuilder::new()
            .guid(&guid)
            .display_name("Test")
            .participants(participants.clone())
            .build();

        repository.insert_conversation(conversation).unwrap();

        let read_conversation = repository.get_conversation_by_guid(&guid).unwrap().unwrap();
        let read_participants = read_conversation.participants;

        assert!(participants_vec_equal_ignoring_id(&participants, &read_participants));

        // Try making another conversation with the same participants
        let conversation = ConversationBuilder::new()
            .display_name("A Different Test")
            .participants(participants.clone())
            .build();

        repository.insert_conversation(conversation).unwrap();

        let read_conversation = repository.get_conversation_by_guid(&guid).unwrap().unwrap();
        let read_participants: Vec<Participant> = read_conversation.participants;

        assert!(participants_vec_equal_ignoring_id(&participants, &read_participants));
    }).await;
}

#[tokio::test]
async fn test_all_conversations_with_participants() {
    let mut db = Database::new_in_memory().unwrap();
    db.with_repository(|repository| {
        // Create two conversations with different participants
        let participants1: Vec<Participant> = vec!["one".into(), "two".into()];
        let participants2: Vec<Participant> = vec!["three".into(), "four".into()];

        let guid1 = uuid::Uuid::new_v4().to_string();
        let conversation1 = ConversationBuilder::new()
            .guid(&guid1)
            .display_name("Test 1")
            .participants(participants1.clone())
            .build();

        let guid2 = uuid::Uuid::new_v4().to_string();
        let conversation2 = ConversationBuilder::new()
            .guid(&guid2)
            .display_name("Test 2")
            .participants(participants2.clone())
            .build();

        // Insert both conversations
        repository.insert_conversation(conversation1).unwrap();
        repository.insert_conversation(conversation2).unwrap();

        // Get all conversations and verify the results
        let all_conversations = repository.all_conversations().unwrap();
        assert_eq!(all_conversations.len(), 2);

        // Find and verify each conversation's participants
        let conv1 = all_conversations.iter().find(|c| c.guid == guid1).unwrap();
        let conv2 = all_conversations.iter().find(|c| c.guid == guid2).unwrap();

        assert!(participants_vec_equal_ignoring_id(&conv1.participants, &participants1));
        assert!(participants_vec_equal_ignoring_id(&conv2.participants, &participants2));
    }).await;
}

#[tokio::test]
async fn test_messages() {
    let mut db = Database::new_in_memory().unwrap();
    db.with_repository(|repository| {
        // First create a conversation with participants
        let participants = vec!["Alice".into(), "Bob".into()];
        let conversation = ConversationBuilder::new()
            .display_name("Test Chat")
            .participants(participants)
            .build();
        let conversation_id = conversation.guid.clone();

        repository.insert_conversation(conversation).unwrap();

        // Create and insert a message from Me
        let message1 = Message::builder()
            .text("Hello everyone!".to_string())
            .build();

        // Create and insert a message from a remote participant
        let message2 = Message::builder()
            .text("Hi there!".to_string())
            .sender("Alice".into())
            .build();

        // Insert both messages
        repository.insert_message(&conversation_id, message1.clone()).unwrap();
        repository.insert_message(&conversation_id, message2.clone()).unwrap();

        // Retrieve messages
        let messages = repository.get_messages_for_conversation(&conversation_id).unwrap();
        assert_eq!(messages.len(), 2);

        // Verify first message (from Me)
        let retrieved_message1 = messages.iter().find(|m| m.id == message1.id).unwrap();
        assert_eq!(retrieved_message1.text, "Hello everyone!");
        assert!(matches!(retrieved_message1.sender, Participant::Me));

        // Verify second message (from Alice)
        let retrieved_message2 = messages.iter().find(|m| m.id == message2.id).unwrap();
        assert_eq!(retrieved_message2.text, "Hi there!");
        if let Participant::Remote { display_name, .. } = &retrieved_message2.sender {
            assert_eq!(display_name, "Alice");
        } else {
            panic!("Expected Remote participant. Got: {:?}", retrieved_message2.sender);
        }
    }).await;
}

#[tokio::test]
async fn test_message_ordering() {
    let mut db = Database::new_in_memory().unwrap();
    db.with_repository(|repository| {
        // Create a conversation
        let conversation = ConversationBuilder::new()
            .display_name("Test Chat")
            .build();
        let conversation_id = conversation.guid.clone();
        repository.insert_conversation(conversation).unwrap();

        // Create messages with specific timestamps
        let now = chrono::Utc::now().naive_utc();
        let message1 = Message::builder()
            .text("First message".to_string())
            .date(now)
            .build();

        let message2 = Message::builder()
            .text("Second message".to_string())
            .date(now + chrono::Duration::minutes(1))
            .build();

        let message3 = Message::builder()
            .text("Third message".to_string())
            .date(now + chrono::Duration::minutes(2))
            .build();

        // Insert messages
        repository.insert_message(&conversation_id, message1).unwrap();
        repository.insert_message(&conversation_id, message2).unwrap();
        repository.insert_message(&conversation_id, message3).unwrap();

        // Retrieve messages and verify order
        let messages = repository.get_messages_for_conversation(&conversation_id).unwrap();
        assert_eq!(messages.len(), 3);

        // Messages should be ordered by date
        for i in 1..messages.len() {
            assert!(messages[i].date > messages[i-1].date);
        }
    }).await;
}

#[tokio::test]
async fn test_insert_messages_batch() {
    let mut db = Database::new_in_memory().unwrap();
    db.with_repository(|repository| {
        // Create a conversation with two remote participants
        let participants: Vec<Participant> = vec!["Alice".into(), "Bob".into()];
        let conversation = ConversationBuilder::new()
            .display_name("Batch Chat")
            .participants(participants.clone())
            .build();
        let conversation_id = conversation.guid.clone();
        repository.insert_conversation(conversation).unwrap();

        // Prepare a batch of messages with increasing timestamps
        let now = chrono::Utc::now().naive_utc();
        let message1 = Message::builder()
            .text("Hi".to_string())
            .date(now)
            .build();

        let message2 = Message::builder()
            .text("Hello".to_string())
            .sender("Alice".into())
            .date(now + chrono::Duration::seconds(1))
            .build();

        let message3 = Message::builder()
            .text("How are you?".to_string())
            .sender("Bob".into())
            .date(now + chrono::Duration::seconds(2))
            .build();

        let message4 = Message::builder()
            .text("Great!".to_string())
            .date(now + chrono::Duration::seconds(3))
            .build();

        let original_messages = vec![
            message1.clone(),
            message2.clone(),
            message3.clone(),
            message4.clone(),
        ];

        // Batch insert the messages
        repository
            .insert_messages(&conversation_id, original_messages.clone())
            .unwrap();

        // Retrieve messages and verify
        let retrieved_messages = repository.get_messages_for_conversation(&conversation_id).unwrap();
        assert_eq!(retrieved_messages.len(), original_messages.len());

        // Ensure ordering by date
        for i in 1..retrieved_messages.len() {
            assert!(retrieved_messages[i].date > retrieved_messages[i - 1].date);
        }

        // Verify that all messages are present with correct content and sender
        for original in &original_messages {
            let retrieved = retrieved_messages
                .iter()
                .find(|m| m.id == original.id)
                .expect("Message not found");
            assert_eq!(retrieved.text, original.text);

            match (&original.sender, &retrieved.sender) {
                (Participant::Me, Participant::Me) => {}
                (
                    Participant::Remote { display_name: o_name, .. },
                    Participant::Remote { display_name: r_name, .. },
                ) => assert_eq!(o_name, r_name),
                _ => panic!(
                    "Sender mismatch: original {:?}, retrieved {:?}",
                    original.sender, retrieved.sender
                ),
            }
        }
    })
    .await;
}

#[tokio::test]
async fn test_settings() {
    let mut db = Database::new_in_memory().unwrap();
    db.with_settings(|settings| {
        settings.put("test", &"test".to_string()).unwrap();
        assert_eq!(settings.get::<String>("test").unwrap().unwrap(), "test");

        settings.del("test").unwrap();
        assert!(settings.get::<String>("test").unwrap().is_none());

        let keys = settings.list_keys().unwrap();
        assert_eq!(keys.len(), 0);

        // Try encoding a struct 
        #[derive(serde::Serialize, serde::Deserialize, Debug, PartialEq, Eq)]
        struct TestStruct {
            name: String,
            age: u32,
        }

        let test_struct = TestStruct {
            name: "James".to_string(),
            age: 35,
        };

        settings.put("test_struct", &test_struct).unwrap();
        assert_eq!(settings.get::<TestStruct>("test_struct").unwrap().unwrap(), test_struct);

        // Test with an option<string>
        settings.put("test_struct_option", &Option::<String>::None).unwrap();
        assert!(settings.get::<Option<String>>("test_struct_option").unwrap().unwrap().is_none());

        settings.put("test_struct_option", &Option::<String>::Some("test".to_string())).unwrap();
        assert_eq!(settings.get::<Option<String>>("test_struct_option").unwrap().unwrap(), Some("test".to_string()));
    }).await;
}