thoughts/crates/domain/src/testing.rs

use std::sync::{Arc, Mutex};
use async_trait::async_trait;
use chrono::Utc;
use crate::{
    errors::DomainError,
    events::DomainEvent,
    models::{
        api_key::ApiKey,
        feed::{FeedEntry, PageParams, Paginated, UserSummary},
        notification::Notification,
        remote_actor::RemoteActor,
        social::{Block, Boost, Follow, FollowState, Like},
        tag::Tag,
        thought::Thought,
        top_friend::TopFriend,
        user::User,
    },
    ports::*,
    value_objects::{ApiKeyId, Content, Email, NotificationId, ThoughtId, UserId, Username},
};

#[derive(Default, Clone)]
pub struct TestStore {
    pub users:         Arc<Mutex<Vec<User>>>,
    pub thoughts:      Arc<Mutex<Vec<Thought>>>,
    pub likes:         Arc<Mutex<Vec<Like>>>,
    pub boosts:        Arc<Mutex<Vec<Boost>>>,
    pub follows:       Arc<Mutex<Vec<Follow>>>,
    pub blocks:        Arc<Mutex<Vec<Block>>>,
    pub tags:          Arc<Mutex<Vec<Tag>>>,
    pub api_keys:      Arc<Mutex<Vec<ApiKey>>>,
    pub top_friends:   Arc<Mutex<Vec<TopFriend>>>,
    pub notifications: Arc<Mutex<Vec<Notification>>>,
    pub events:        Arc<Mutex<Vec<DomainEvent>>>,
}

#[async_trait] impl UserRepository for TestStore {
    async fn find_by_id(&self, id: &UserId) -> Result<Option<User>, DomainError> {
        Ok(self.users.lock().unwrap().iter().find(|u| &u.id == id).cloned())
    }
    async fn find_by_username(&self, username: &Username) -> Result<Option<User>, DomainError> {
        Ok(self.users.lock().unwrap().iter().find(|u| u.username.as_str() == username.as_str()).cloned())
    }
    async fn find_by_email(&self, email: &Email) -> Result<Option<User>, DomainError> {
        Ok(self.users.lock().unwrap().iter().find(|u| u.email.as_str() == email.as_str()).cloned())
    }
    async fn save(&self, user: &User) -> Result<(), DomainError> {
        let mut g = self.users.lock().unwrap();
        g.retain(|u| u.id != user.id);
        g.push(user.clone());
        Ok(())
    }
    async fn update_profile(&self, user_id: &UserId, display_name: Option<String>, bio: Option<String>, avatar_url: Option<String>, header_url: Option<String>, custom_css: Option<String>) -> Result<(), DomainError> {
        if let Some(u) = self.users.lock().unwrap().iter_mut().find(|u| &u.id == user_id) {
            u.display_name = display_name;
            u.bio = bio;
            u.avatar_url = avatar_url;
            u.header_url = header_url;
            u.custom_css = custom_css;
        }
        Ok(())
    }
    async fn list_with_stats(&self) -> Result<Vec<UserSummary>, DomainError> { Ok(vec![]) }
}

#[async_trait] impl ThoughtRepository for TestStore {
    async fn save(&self, t: &Thought) -> Result<(), DomainError> {
        let mut g = self.thoughts.lock().unwrap();
        g.retain(|x| x.id != t.id);
        g.push(t.clone());
        Ok(())
    }
    async fn find_by_id(&self, id: &ThoughtId) -> Result<Option<Thought>, DomainError> {
        Ok(self.thoughts.lock().unwrap().iter().find(|t| &t.id == id).cloned())
    }
    async fn delete(&self, id: &ThoughtId, user_id: &UserId) -> Result<(), DomainError> {
        let mut g = self.thoughts.lock().unwrap();
        let before = g.len();
        g.retain(|t| !(&t.id == id && &t.user_id == user_id));
        if g.len() == before { return Err(DomainError::NotFound); }
        Ok(())
    }
    async fn update_content(&self, id: &ThoughtId, content: &Content) -> Result<(), DomainError> {
        if let Some(t) = self.thoughts.lock().unwrap().iter_mut().find(|t| &t.id == id) {
            t.content = content.clone();
            t.updated_at = Some(Utc::now());
        }
        Ok(())
    }
    async fn get_thread(&self, id: &ThoughtId) -> Result<Vec<Thought>, DomainError> {
        Ok(self.thoughts.lock().unwrap().iter()
            .filter(|t| t.in_reply_to_id.as_ref() == Some(id) || &t.id == id)
            .cloned().collect())
    }
    async fn list_by_user(&self, _user_id: &UserId, _page: &PageParams) -> Result<Paginated<FeedEntry>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
}

#[async_trait] impl LikeRepository for TestStore {
    async fn save(&self, like: &Like) -> Result<(), DomainError> {
        let mut g = self.likes.lock().unwrap();
        if g.iter().any(|l| l.user_id == like.user_id && l.thought_id == like.thought_id) {
            return Err(DomainError::Conflict("already liked".into()));
        }
        g.push(like.clone());
        Ok(())
    }
    async fn delete(&self, user_id: &UserId, thought_id: &ThoughtId) -> Result<(), DomainError> {
        let mut g = self.likes.lock().unwrap();
        let before = g.len();
        g.retain(|l| !(&l.user_id == user_id && &l.thought_id == thought_id));
        if g.len() == before { return Err(DomainError::NotFound); }
        Ok(())
    }
    async fn find(&self, user_id: &UserId, thought_id: &ThoughtId) -> Result<Option<Like>, DomainError> {
        Ok(self.likes.lock().unwrap().iter().find(|l| &l.user_id == user_id && &l.thought_id == thought_id).cloned())
    }
    async fn count_for_thought(&self, thought_id: &ThoughtId) -> Result<i64, DomainError> {
        Ok(self.likes.lock().unwrap().iter().filter(|l| &l.thought_id == thought_id).count() as i64)
    }
}

#[async_trait] impl BoostRepository for TestStore {
    async fn save(&self, boost: &Boost) -> Result<(), DomainError> {
        let mut g = self.boosts.lock().unwrap();
        if g.iter().any(|b| b.user_id == boost.user_id && b.thought_id == boost.thought_id) {
            return Err(DomainError::Conflict("already boosted".into()));
        }
        g.push(boost.clone());
        Ok(())
    }
    async fn delete(&self, user_id: &UserId, thought_id: &ThoughtId) -> Result<(), DomainError> {
        let mut g = self.boosts.lock().unwrap();
        let before = g.len();
        g.retain(|b| !(&b.user_id == user_id && &b.thought_id == thought_id));
        if g.len() == before { return Err(DomainError::NotFound); }
        Ok(())
    }
    async fn find(&self, user_id: &UserId, thought_id: &ThoughtId) -> Result<Option<Boost>, DomainError> {
        Ok(self.boosts.lock().unwrap().iter().find(|b| &b.user_id == user_id && &b.thought_id == thought_id).cloned())
    }
    async fn count_for_thought(&self, thought_id: &ThoughtId) -> Result<i64, DomainError> {
        Ok(self.boosts.lock().unwrap().iter().filter(|b| &b.thought_id == thought_id).count() as i64)
    }
}

#[async_trait] impl FollowRepository for TestStore {
    async fn save(&self, follow: &Follow) -> Result<(), DomainError> {
        let mut g = self.follows.lock().unwrap();
        g.retain(|f| !(f.follower_id == follow.follower_id && f.following_id == follow.following_id));
        g.push(follow.clone());
        Ok(())
    }
    async fn delete(&self, follower_id: &UserId, following_id: &UserId) -> Result<(), DomainError> {
        let mut g = self.follows.lock().unwrap();
        let before = g.len();
        g.retain(|f| !(&f.follower_id == follower_id && &f.following_id == following_id));
        if g.len() == before { return Err(DomainError::NotFound); }
        Ok(())
    }
    async fn find(&self, follower_id: &UserId, following_id: &UserId) -> Result<Option<Follow>, DomainError> {
        Ok(self.follows.lock().unwrap().iter().find(|f| &f.follower_id == follower_id && &f.following_id == following_id).cloned())
    }
    async fn update_state(&self, follower_id: &UserId, following_id: &UserId, state: &FollowState) -> Result<(), DomainError> {
        if let Some(f) = self.follows.lock().unwrap().iter_mut().find(|f| &f.follower_id == follower_id && &f.following_id == following_id) {
            f.state = state.clone();
        }
        Ok(())
    }
    async fn list_followers(&self, _user_id: &UserId, _p: &PageParams) -> Result<Paginated<User>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
    async fn list_following(&self, _user_id: &UserId, _p: &PageParams) -> Result<Paginated<User>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
    async fn get_accepted_following_ids(&self, user_id: &UserId) -> Result<Vec<UserId>, DomainError> {
        Ok(self.follows.lock().unwrap().iter()
            .filter(|f| &f.follower_id == user_id && f.state == FollowState::Accepted)
            .map(|f| f.following_id.clone())
            .collect())
    }
}

#[async_trait] impl BlockRepository for TestStore {
    async fn save(&self, block: &Block) -> Result<(), DomainError> {
        self.blocks.lock().unwrap().push(block.clone());
        Ok(())
    }
    async fn delete(&self, blocker_id: &UserId, blocked_id: &UserId) -> Result<(), DomainError> {
        self.blocks.lock().unwrap().retain(|b| !(&b.blocker_id == blocker_id && &b.blocked_id == blocked_id));
        Ok(())
    }
    async fn exists(&self, blocker_id: &UserId, blocked_id: &UserId) -> Result<bool, DomainError> {
        Ok(self.blocks.lock().unwrap().iter().any(|b| &b.blocker_id == blocker_id && &b.blocked_id == blocked_id))
    }
}

#[async_trait] impl TagRepository for TestStore {
    async fn find_or_create(&self, name: &str) -> Result<Tag, DomainError> {
        let mut g = self.tags.lock().unwrap();
        if let Some(t) = g.iter().find(|t| t.name == name) { return Ok(t.clone()); }
        let tag = Tag { id: g.len() as i32 + 1, name: name.to_string() };
        g.push(tag.clone());
        Ok(tag)
    }
    async fn attach_to_thought(&self, _tid: &ThoughtId, _tag_id: i32) -> Result<(), DomainError> { Ok(()) }
    async fn detach_from_thought(&self, _tid: &ThoughtId) -> Result<(), DomainError> { Ok(()) }
    async fn list_for_thought(&self, _tid: &ThoughtId) -> Result<Vec<Tag>, DomainError> { Ok(vec![]) }
    async fn list_thoughts_by_tag(&self, _name: &str, _p: &PageParams) -> Result<Paginated<Thought>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
}

#[async_trait] impl ApiKeyRepository for TestStore {
    async fn save(&self, key: &ApiKey) -> Result<(), DomainError> {
        self.api_keys.lock().unwrap().push(key.clone());
        Ok(())
    }
    async fn find_by_hash(&self, hash: &str) -> Result<Option<ApiKey>, DomainError> {
        Ok(self.api_keys.lock().unwrap().iter().find(|k| k.key_hash == hash).cloned())
    }
    async fn list_for_user(&self, uid: &UserId) -> Result<Vec<ApiKey>, DomainError> {
        Ok(self.api_keys.lock().unwrap().iter().filter(|k| &k.user_id == uid).cloned().collect())
    }
    async fn delete(&self, id: &ApiKeyId, uid: &UserId) -> Result<(), DomainError> {
        self.api_keys.lock().unwrap().retain(|k| !(&k.id == id && &k.user_id == uid));
        Ok(())
    }
}

#[async_trait] impl TopFriendRepository for TestStore {
    async fn set_top_friends(&self, user_id: &UserId, friends: Vec<(UserId, i16)>) -> Result<(), DomainError> {
        let mut g = self.top_friends.lock().unwrap();
        g.retain(|tf| &tf.user_id != user_id);
        for (fid, pos) in friends {
            g.push(TopFriend { user_id: user_id.clone(), friend_id: fid, position: pos });
        }
        Ok(())
    }
    async fn list_for_user(&self, _uid: &UserId) -> Result<Vec<(TopFriend, User)>, DomainError> { Ok(vec![]) }
}

#[async_trait] impl NotificationRepository for TestStore {
    async fn save(&self, n: &Notification) -> Result<(), DomainError> {
        self.notifications.lock().unwrap().push(n.clone());
        Ok(())
    }
    async fn list_for_user(&self, uid: &UserId, _p: &PageParams) -> Result<Paginated<Notification>, DomainError> {
        let items: Vec<_> = self.notifications.lock().unwrap().iter().filter(|n| &n.user_id == uid).cloned().collect();
        let total = items.len() as i64;
        Ok(Paginated { items, total, page: 1, per_page: 20 })
    }
    async fn mark_read(&self, id: &NotificationId, _uid: &UserId) -> Result<(), DomainError> {
        if let Some(n) = self.notifications.lock().unwrap().iter_mut().find(|n| &n.id == id) {
            n.read = true;
        }
        Ok(())
    }
    async fn mark_all_read(&self, uid: &UserId) -> Result<(), DomainError> {
        for n in self.notifications.lock().unwrap().iter_mut().filter(|n| &n.user_id == uid) {
            n.read = true;
        }
        Ok(())
    }
}

#[async_trait] impl RemoteActorRepository for TestStore {
    async fn upsert(&self, _a: &RemoteActor) -> Result<(), DomainError> { Ok(()) }
    async fn find_by_url(&self, _url: &str) -> Result<Option<RemoteActor>, DomainError> { Ok(None) }
}

#[async_trait] impl FeedRepository for TestStore {
    async fn home_feed(&self, _ids: &[UserId], _p: &PageParams, _v: Option<&UserId>) -> Result<Paginated<FeedEntry>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
    async fn public_feed(&self, _p: &PageParams, _v: Option<&UserId>) -> Result<Paginated<FeedEntry>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
    async fn search(&self, _q: &str, _p: &PageParams, _v: Option<&UserId>) -> Result<Paginated<FeedEntry>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
}

#[async_trait] impl SearchPort for TestStore {
    async fn search_thoughts(&self, _q: &str, _p: &PageParams, _v: Option<&UserId>) -> Result<Paginated<FeedEntry>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
    async fn search_users(&self, _q: &str, _p: &PageParams) -> Result<Paginated<User>, DomainError> {
        Ok(Paginated { items: vec![], total: 0, page: 1, per_page: 20 })
    }
}

#[async_trait] impl EventPublisher for TestStore {
    async fn publish(&self, event: &DomainEvent) -> Result<(), DomainError> {
        self.events.lock().unwrap().push(event.clone());
        Ok(())
    }
}

pub struct NoOpEventPublisher;
#[async_trait] impl EventPublisher for NoOpEventPublisher {
    async fn publish(&self, _e: &DomainEvent) -> Result<(), DomainError> { Ok(()) }
}

#[cfg(test)]
mod search_tests {
    use super::*;
    use crate::models::feed::PageParams;

    #[tokio::test]
    async fn test_store_search_thoughts_returns_empty() {
        let store = TestStore::default();
        let result = store.search_thoughts("hello", &PageParams { page: 1, per_page: 20 }, None).await.unwrap();
        assert_eq!(result.total, 0);
    }

    #[tokio::test]
    async fn test_store_search_users_returns_empty() {
        let store = TestStore::default();
        let result = store.search_users("alice", &PageParams { page: 1, per_page: 20 }).await.unwrap();
        assert_eq!(result.total, 0);
    }
}