use alloc::boxed::Box;
use alloc::string::{String, ToString};
use alloc::vec::Vec;
use alloc::vec;
use crate::interface::{Interface, TargetingData};
use crate::message::MessageBytes;
use crate::res::IFResult;

#[cfg(feature = "std")]
use rayon::prelude::*;
#[cfg(feature = "std")]
use std::println;


/// An identification of a peer - something that we can use to send a message to id
#[derive(Clone, Debug, PartialEq)]
pub struct PeerInfo {
    /// Something to locally identify this peer
    pub peer_id: u64,
    /// ID of the interface through which we communicate with this peer
    pub interface_id: String,
    /// Data that should be passed to the interface to send a message to this peer
    pub interface_targeting_data: TargetingData,
}

impl PeerInfo {
    fn new(interface_id: String, interface_targeting_data: TargetingData) -> Self {
        Self {
            peer_id: rand::random(),
            interface_id,
            interface_targeting_data,
        }
    }
}


/// The struct that manages all the communication with peers
pub struct Transport {
    pub interfaces: Vec<Box<dyn Interface>>,
    peers: Vec<PeerInfo>,
}

impl Transport {
    /// Create new transport with given interfaces
    pub fn new(interfaces: Vec<Box<dyn Interface>>) -> Self {
        #[cfg(not(feature = "std"))]
        if interfaces.iter().map(|interface| interface.has_blocking_main() as u8).sum::<u8>() > 1 {
            panic!("There is two interfaces with blocking main loops and we have no threads because this is no_std!");
        }
        Self { interfaces, peers: vec![] }
    }

    /// Find a peer in `self.peers` by its id
    fn get_peer_by_id(&self, peer_id: u64) -> Option<PeerInfo> {
        self.peers.iter().find(|peer| peer.peer_id == peer_id).cloned()
    }

    /// Try to find a peer in `self.peers` by interface_id and targeting data
    fn get_peer_by_parameters(&self, interface_id: &str, data: &str /*&TargetingData*/) -> Option<&PeerInfo> {
        self.peers.iter().find(|peer| peer.interface_id == interface_id && peer.interface_targeting_data == data)
    }

    /// Insert a new peer into out database and return its id or find an existing one with these parameters
    fn find_or_add_peer(&mut self, interface_id: String, data: TargetingData) -> u64 {
        match self.get_peer_by_parameters(interface_id.as_str(), &data) {
            None => {
                let new_peer = PeerInfo::new(interface_id, data);
                let peer_id = new_peer.peer_id;
                self.peers.push(new_peer);
                peer_id
            }
            Some(peer) => peer.peer_id
        }
    }

    /// Get interface index by its ID
    fn interface_index_by_id(&self, interface_id: &str) -> usize {
        self.interfaces.iter().position(|interface| interface.id() == interface_id).unwrap_or_else(|| panic!("Invalid interface id"))
    }

    /// Send message bytes to a peer if data is provided or broadcast the data if `peer == None`
    pub fn send_message(&mut self, message: MessageBytes, peer_id: Option<u64>) -> IFResult<()> {
        let peer = if let Some(peer_id) = peer_id { self.get_peer_by_id(peer_id) } else { None };
        match peer {
            // Broadcast
            None => {
                #[cfg(not(feature = "std"))]
                    {
                        for interface in &mut self.interfaces {
                            interface.send(&message, None)?;
                        }
                    }
                // If we have concurrency, we will do it concurrently
                #[cfg(feature = "std")]
                    {
                        self.interfaces.par_iter_mut().map(|interface| interface.send(&message, None)).for_each(drop);
                    }
                Ok(())
            }
            // Singlecast
            Some(peer) => {
                let interface_ind = self.interface_index_by_id(peer.interface_id.as_str());
                self.interfaces[interface_ind].send(&message, Some(peer.interface_targeting_data))
            }
        }
    }

    /// Poll all the interfaces and receive a message
    ///
    /// Returns a result with an option of `(message, peer_id)`
    pub fn receive(&mut self) -> Option<(MessageBytes, u64 /* peer id*/)> {
        if let Some((interface_id, (msg, peer_data))) = self.interfaces
            .iter_mut()
            // For each interface return (interface id, message result)
            .map(|interface| (interface.id().to_string(), interface.receive()))
            // If there was an error, print it
            .map(|res| match res {
                (id, Err(e)) => {
                    #[cfg(feature = "std")]
                    println!("An error occurred while receiving: {:?}", e);
                    (id, Err(e))
                }
                (id, Ok(r)) => (id, Ok(r))
            })
            // Find a result where there is a message
            .find(|r| matches!(r, (_, Ok(Some(_)))))
            // Safely unwrap this result (we already matched `Ok(Some(_))`)
            .map(|(id, r)| (id, r.unwrap().unwrap())) {
            Some((msg, self.find_or_add_peer(interface_id, peer_data)))
        } else { None }
    }

    /// Run one iteration of the main loop
    pub fn main_loop_iteration(&mut self) -> IFResult<()> {
        #[cfg(feature = "std")]
            self.interfaces.par_iter_mut().map(|interface| interface.main_loop_iteration()).collect::<IFResult<_>>()?;
        #[cfg(not(feature = "std"))]
            {
                self.interfaces.iter_mut().try_for_each(|interface| if !interface.has_blocking_main() { interface.main_loop_iteration() } else { Ok(()) })?;
                let blocking_interface_index = self.interfaces.iter().position(|interface| interface.has_blocking_main());
                if let Some(ind) = blocking_interface_index {
                    self.interfaces[ind].main_loop_iteration()?;
                }
            }
        Ok(())
    }
}

#[cfg(test)]
use crate::interface::test_interface::SimpleTestInterface;

#[test]
fn test_adding_peer_to_transport() {
    let mut transport = Transport::new(vec![Box::new(SimpleTestInterface::default())]);
    let (interface_id, interface_targeting_data) = ("test_interface".to_string(), "hi".to_string());
    assert!(transport.get_peer_by_parameters(interface_id.as_str(), interface_targeting_data.as_str()).is_none());
    let peer_id = transport.find_or_add_peer(interface_id.clone(), interface_targeting_data.clone());
    let peer = PeerInfo {
        peer_id,
        interface_id: interface_id.clone(),
        interface_targeting_data: interface_targeting_data.clone(),
    };
    assert_eq!(transport.get_peer_by_parameters(interface_id.as_str(), interface_targeting_data.as_str()), Some(&peer));
    assert_eq!(transport.get_peer_by_id(peer_id), Some(peer));
}

#[test]
fn test_transport_sending() {
    let mut transport = Transport::new(vec![Box::new(SimpleTestInterface::default())]);
    let (interface_id, interface_targeting_data) = ("test_interface".to_string(), "hi".to_string());
    let peer_id = transport.find_or_add_peer(interface_id.clone(), interface_targeting_data.clone());
    transport.send_message(vec![239, 123], None).unwrap();
    assert_eq!(transport.interfaces[0].receive().unwrap(), Some((vec![239u8, 123], "".to_string())));
    assert!(transport.interfaces[0].receive() == IFResult::Ok(None));
    transport.send_message(vec![239, 123], Some(peer_id)).unwrap();
    assert_eq!(transport.interfaces[0].receive(), IFResult::Ok(Some((vec![239, 123], interface_targeting_data))));
}

#[test]
fn test_transport_receiving() {
    let mut transport = Transport::new(vec![Box::new(SimpleTestInterface::default())]);
    let (interface_id, interface_targeting_data) = ("test_interface".to_string(), "hi".to_string());
    let peer_id = transport.find_or_add_peer(interface_id.clone(), interface_targeting_data.clone());
    transport.send_message(vec![239, 123], None).unwrap();
    assert_eq!(transport.receive(), Some((vec![239u8, 123], transport.get_peer_by_parameters(interface_id.as_str(), "").unwrap().peer_id)));
    assert!(transport.receive().is_none());
    transport.send_message(vec![239, 123], Some(peer_id)).unwrap();
    assert_eq!(transport.receive(), Some((vec![239, 123], peer_id)));
}