// To the extent possible under law, the author(s) have dedicated all
// copyright and related and neighboring rights to this software to
// the public domain worldwide. This software is distributed without
// any warranty.
//
// You should have received a copy of the CC0 Public Domain Dedication
// along with this software.
// If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.
//

use std::fs::File;
use std::result;

use bitcoin;
use hex;
use jsonrpc;
use secp256k1;
use serde;
use serde_json;

use bitcoin::{Address, Block, BlockHeader, PrivateKey, Transaction};
use bitcoin_amount::Amount;
use bitcoin_hashes::sha256d;
use log::Level::Trace;
use num_bigint::BigUint;
use secp256k1::{SecretKey, Signature};
use std::collections::HashMap;

use error::*;
use json;
use queryable;

/// Crate-specific Result type, shorthand for `std::result::Result` with our
/// crate-specific Error type;
pub type Result<T> = result::Result<T, Error>;

/// Shorthand for converting a variable into a serde_json::Value.
fn into_json<T>(val: T) -> Result<serde_json::Value>
where
    T: serde::ser::Serialize,
{
    Ok(serde_json::to_value(val)?)
}

/// Shorthand for converting an Option into an Option<serde_json::Value>.
fn opt_into_json<T>(opt: Option<T>) -> Result<serde_json::Value>
where
    T: serde::ser::Serialize,
{
    match opt {
        Some(val) => Ok(into_json(val)?),
        None => Ok(serde_json::Value::Null),
    }
}

/// Shorthand for `serde_json::Value::Null`.
fn null() -> serde_json::Value {
    serde_json::Value::Null
}

/// Shorthand for an empty serde_json::Value array.
fn empty_arr() -> serde_json::Value {
    serde_json::Value::Array(vec![])
}

/// Shorthand for an empty serde_json object.
fn empty_obj() -> serde_json::Value {
    serde_json::Value::Object(Default::default())
}

/// Handle default values in the argument list
///
/// Substitute `Value::Null`s with corresponding values from `defaults` table,
/// except when they are trailing, in which case just skip them altogether
/// in returned list.
///
/// Note, that `defaults` corresponds to the last elements of `args`.
///
/// ```norust
/// arg1 arg2 arg3 arg4
///           def1 def2
/// ```
///
/// Elements of `args` without corresponding `defaults` value, won't
/// be substituted, because they are required.
fn handle_defaults<'a, 'b>(
    args: &'a mut [serde_json::Value],
    defaults: &'b [serde_json::Value],
) -> &'a [serde_json::Value] {
    assert!(args.len() >= defaults.len());

    // Pass over the optional arguments in backwards order, filling in defaults after the first
    // non-null optional argument has been observed.
    let mut first_non_null_optional_idx = None;
    for i in 0..defaults.len() {
        let args_i = args.len() - 1 - i;
        let defaults_i = defaults.len() - 1 - i;
        if args[args_i] == serde_json::Value::Null {
            if first_non_null_optional_idx.is_some() {
                if defaults[defaults_i] == serde_json::Value::Null {
                    panic!("Missing `default` for argument idx {}", args_i);
                }
                args[args_i] = defaults[defaults_i].clone();
            }
        } else if first_non_null_optional_idx.is_none() {
            first_non_null_optional_idx = Some(args_i);
        }
    }

    let required_num = args.len() - defaults.len();

    if let Some(i) = first_non_null_optional_idx {
        &args[..i + 1]
    } else {
        &args[..required_num]
    }
}

/// Convert a possible-null result into an Option.
fn opt_result<T: for<'a> serde::de::Deserialize<'a>>(
    result: serde_json::Value,
) -> Result<Option<T>> {
    if result == serde_json::Value::Null {
        Ok(None)
    } else {
        Ok(serde_json::from_value(result)?)
    }
}

/// Used to pass raw txs into the API.
pub trait RawTx: Sized {
    fn raw_hex(self) -> String;
}

impl<'a> RawTx for &'a Transaction {
    fn raw_hex(self) -> String {
        hex::encode(bitcoin::consensus::encode::serialize(self))
    }
}

impl<'a> RawTx for &'a [u8] {
    fn raw_hex(self) -> String {
        hex::encode(self)
    }
}

impl<'a> RawTx for &'a Vec<u8> {
    fn raw_hex(self) -> String {
        hex::encode(self)
    }
}

impl<'a> RawTx for &'a str {
    fn raw_hex(self) -> String {
        self.to_owned()
    }
}

impl RawTx for String {
    fn raw_hex(self) -> String {
        self
    }
}

/// The different authentication methods for the client.
pub enum Auth<'a> {
    None,
    UserPass(String, String),
    CookieFile(&'a str),
}

impl<'a> Auth<'a> {
    /// Convert into the arguments that jsonrpc::Client needs.
    fn get_user_pass(self) -> Result<(Option<String>, Option<String>)> {
        use std::io::Read;
        match self {
            Auth::None => Ok((None, None)),
            Auth::UserPass(u, p) => Ok((Some(u), Some(p))),
            Auth::CookieFile(path) => {
                let mut file = File::open(path)?;
                let mut contents = String::new();
                file.read_to_string(&mut contents)?;
                let mut split = contents.splitn(2, ":");
                Ok((
                    Some(split.next().ok_or(Error::InvalidCookieFile)?.into()),
                    Some(split.next().ok_or(Error::InvalidCookieFile)?.into()),
                ))
            }
        }
    }
}

pub trait RpcApi: Sized {
    /// Call a `cmd` rpc with given `args` list
    fn call<T: for<'a> serde::de::Deserialize<'a>>(
        &self,
        cmd: &str,
        args: &[serde_json::Value],
    ) -> Result<T>;

    /// Query an object implementing `Querable` type
    fn get_by_id<T: queryable::Queryable<Self>>(
        &self,
        id: &<T as queryable::Queryable<Self>>::Id,
    ) -> Result<T> {
        T::query(&self, &id)
    }

    fn add_multisig_address(
        &self,
        nrequired: usize,
        keys: &[json::PubKeyOrAddress],
        label: Option<&str>,
        address_type: Option<json::AddressType>,
    ) -> Result<json::AddMultiSigAddressResult> {
        let mut args = [
            into_json(nrequired)?,
            into_json(keys)?,
            opt_into_json(label)?,
            opt_into_json(address_type)?,
        ];
        self.call("addmultisigaddress", handle_defaults(&mut args, &[into_json("")?, null()]))
    }

    fn backup_wallet(&self, destination: Option<&str>) -> Result<()> {
        let mut args = [opt_into_json(destination)?];
        self.call("backupwallet", handle_defaults(&mut args, &[null()]))
    }

    // TODO(dpc): should we convert? Or maybe we should have two methods?
    //            just like with `getrawtransaction` it is sometimes useful
    //            to just get the string dump, without converting it into
    //            `bitcoin` type; Maybe we should made it `Queryable` by
    //            `Address`!
    fn dump_priv_key(&self, address: &Address) -> Result<SecretKey> {
        let hex: String = self.call("dumpprivkey", &[address.to_string().into()])?;
        let bytes = hex::decode(hex)?;
        Ok(secp256k1::SecretKey::from_slice(&bytes)?)
    }

    fn encrypt_wallet(&self, passphrase: &str) -> Result<()> {
        self.call("encryptwallet", &[into_json(passphrase)?])
    }

    //TODO(stevenroose) verify if return type works
    fn get_difficulty(&self) -> Result<BigUint> {
        self.call("getdifficulty", &[])
    }

    fn get_connection_count(&self) -> Result<usize> {
        self.call("getconnectioncount", &[])
    }

    fn get_block(&self, hash: &sha256d::Hash) -> Result<Block> {
        let hex: String = self.call("getblock", &[into_json(hash)?, 0.into()])?;
        let bytes = hex::decode(hex)?;
        Ok(bitcoin::consensus::encode::deserialize(&bytes)?)
    }

    fn get_block_hex(&self, hash: &sha256d::Hash) -> Result<String> {
        self.call("getblock", &[into_json(hash)?, 0.into()])
    }

    fn get_block_info(&self, hash: &sha256d::Hash) -> Result<json::GetBlockResult> {
        self.call("getblock", &[into_json(hash)?, 1.into()])
    }
    //TODO(stevenroose) add getblock_txs

    fn get_block_header_raw(&self, hash: &sha256d::Hash) -> Result<BlockHeader> {
        let hex: String = self.call("getblockheader", &[into_json(hash)?, false.into()])?;
        let bytes = hex::decode(hex)?;
        Ok(bitcoin::consensus::encode::deserialize(&bytes)?)
    }

    fn get_block_header_verbose(&self, hash: &sha256d::Hash) -> Result<json::GetBlockHeaderResult> {
        self.call("getblockheader", &[into_json(hash)?, true.into()])
    }

    fn get_mining_info(&self) -> Result<json::GetMiningInfoResult> {
        self.call("getmininginfo", &[])
    }

    /// Returns a data structure containing various state info regarding
    /// blockchain processing.
    fn get_blockchain_info(&self) -> Result<json::GetBlockchainInfoResult> {
        self.call("getblockchaininfo", &[])
    }

    /// Returns the numbers of block in the longest chain.
    fn get_block_count(&self) -> Result<u64> {
        self.call("getblockcount", &[])
    }

    /// Returns the hash of the best (tip) block in the longest blockchain.
    fn get_best_block_hash(&self) -> Result<sha256d::Hash> {
        self.call("getbestblockhash", &[])
    }

    /// Get block hash at a given height
    fn get_block_hash(&self, height: u64) -> Result<sha256d::Hash> {
        self.call("getblockhash", &[height.into()])
    }

    fn get_raw_transaction(
        &self,
        txid: &sha256d::Hash,
        block_hash: Option<&sha256d::Hash>,
    ) -> Result<Transaction> {
        let mut args = [into_json(txid)?, into_json(false)?, opt_into_json(block_hash)?];
        let hex: String = self.call("getrawtransaction", handle_defaults(&mut args, &[null()]))?;
        let bytes = hex::decode(hex)?;
        Ok(bitcoin::consensus::encode::deserialize(&bytes)?)
    }

    fn get_raw_transaction_hex(
        &self,
        txid: &sha256d::Hash,
        block_hash: Option<&sha256d::Hash>,
    ) -> Result<String> {
        let mut args = [into_json(txid)?, into_json(false)?, opt_into_json(block_hash)?];
        self.call("getrawtransaction", handle_defaults(&mut args, &[null()]))
    }

    fn get_raw_transaction_verbose(
        &self,
        txid: &sha256d::Hash,
        block_hash: Option<&sha256d::Hash>,
    ) -> Result<json::GetRawTransactionResult> {
        let mut args = [into_json(txid)?, into_json(true)?, opt_into_json(block_hash)?];
        self.call("getrawtransaction", handle_defaults(&mut args, &[null()]))
    }

    fn get_received_by_address(&self, address: &Address, minconf: Option<u32>) -> Result<Amount> {
        let mut args = [address.to_string().into(), opt_into_json(minconf)?];
        self.call("getreceivedbyaddress", handle_defaults(&mut args, &[null()]))
    }

    fn get_transaction(
        &self,
        txid: &sha256d::Hash,
        include_watchonly: Option<bool>,
    ) -> Result<json::GetTransactionResult> {
        let mut args = [into_json(txid)?, opt_into_json(include_watchonly)?];
        self.call("gettransaction", handle_defaults(&mut args, &[null()]))
    }

    fn get_tx_out(
        &self,
        txid: &sha256d::Hash,
        vout: u32,
        include_mempool: Option<bool>,
    ) -> Result<Option<json::GetTxOutResult>> {
        let mut args = [into_json(txid)?, into_json(vout)?, opt_into_json(include_mempool)?];
        opt_result(self.call("gettxout", handle_defaults(&mut args, &[null()]))?)
    }

    fn import_priv_key(
        &self,
        privkey: &SecretKey,
        label: Option<&str>,
        rescan: Option<bool>,
    ) -> Result<()> {
        let mut args = [privkey.to_string().into(), into_json(label)?, opt_into_json(rescan)?];
        self.call("importprivkey", handle_defaults(&mut args, &[into_json("")?, null()]))
    }

    fn key_pool_refill(&self, new_size: Option<usize>) -> Result<()> {
        let mut args = [opt_into_json(new_size)?];
        self.call("keypoolrefill", handle_defaults(&mut args, &[null()]))
    }

    fn list_unspent(
        &self,
        minconf: Option<usize>,
        maxconf: Option<usize>,
        addresses: Option<Vec<&Address>>,
        include_unsafe: Option<bool>,
        query_options: Option<HashMap<&str, &str>>,
    ) -> Result<Vec<json::ListUnspentResult>> {
        let mut args = [
            opt_into_json(minconf)?,
            opt_into_json(maxconf)?,
            opt_into_json(addresses)?,
            opt_into_json(include_unsafe)?,
            opt_into_json(query_options)?,
        ];
        let defaults = [into_json(0)?, into_json(9999999)?, empty_arr(), into_json(true)?, null()];
        self.call("listunspent", handle_defaults(&mut args, &defaults))
    }

    fn create_raw_transaction_hex(
        &self,
        utxos: &[json::CreateRawTransactionInput],
        outs: &HashMap<String, f64>,
        locktime: Option<i64>,
        replaceable: Option<bool>,
    ) -> Result<String> {
        let mut args = [
            into_json(utxos)?,
            into_json(outs)?,
            opt_into_json(locktime)?,
            opt_into_json(replaceable)?,
        ];
        let defaults = [into_json(0i64)?, null()];
        self.call("createrawtransaction", handle_defaults(&mut args, &defaults))
    }

    fn create_raw_transaction(
        &self,
        utxos: &[json::CreateRawTransactionInput],
        outs: &HashMap<String, f64>,
        locktime: Option<i64>,
        replaceable: Option<bool>,
    ) -> Result<Transaction> {
        let hex: String = self.create_raw_transaction_hex(utxos, outs, locktime, replaceable)?;
        let bytes = hex::decode(hex)?;
        Ok(bitcoin::consensus::encode::deserialize(&bytes)?)
    }

    fn fund_raw_transaction<R: RawTx>(
        &self,
        tx: R,
        options: Option<json::FundRawTransactionOptions>,
        is_witness: Option<bool>,
    ) -> Result<json::FundRawTransactionResult> {
        let mut args = [tx.raw_hex().into(), opt_into_json(options)?, opt_into_json(is_witness)?];
        let defaults = [empty_obj(), null()];
        self.call("fundrawtransaction", handle_defaults(&mut args, &defaults))
    }

    #[deprecated]
    fn sign_raw_transaction<R: RawTx>(
        &self,
        tx: R,
        utxos: Option<&[json::SignRawTransactionInput]>,
        private_keys: Option<&[&PrivateKey]>,
        sighash_type: Option<json::SigHashType>,
    ) -> Result<json::SignRawTransactionResult> {
        let mut args = [
            tx.raw_hex().into(),
            opt_into_json(utxos)?,
            opt_into_json(private_keys)?,
            opt_into_json(sighash_type)?,
        ];
        let defaults = [empty_arr(), empty_arr(), null()];
        self.call("signrawtransaction", handle_defaults(&mut args, &defaults))
    }

    fn sign_raw_transaction_with_wallet<R: RawTx>(
        &self,
        tx: R,
        utxos: Option<&[json::SignRawTransactionInput]>,
        sighash_type: Option<json::SigHashType>,
    ) -> Result<json::SignRawTransactionResult> {
        let mut args = [tx.raw_hex().into(), opt_into_json(utxos)?, opt_into_json(sighash_type)?];
        let defaults = [empty_arr(), null()];
        self.call("signrawtransactionwithwallet", handle_defaults(&mut args, &defaults))
    }

    fn sign_raw_transaction_with_key<R: RawTx>(
        &self,
        tx: R,
        privkeys: &[&PrivateKey],
        prevtxs: Option<&[json::SignRawTransactionInput]>,
        sighash_type: Option<json::SigHashType>,
    ) -> Result<json::SignRawTransactionResult> {
        let mut args = [
            tx.raw_hex().into(),
            into_json(privkeys)?,
            opt_into_json(prevtxs)?,
            opt_into_json(sighash_type)?,
        ];
        let defaults = [empty_arr(), null()];
        self.call("signrawtransactionwithkey", handle_defaults(&mut args, &defaults))
    }

    fn test_mempool_accept(&self, rawtxs: &[&str]) -> Result<Vec<json::TestMempoolAccept>> {
        self.call("testmempoolaccept", &[into_json(rawtxs)?])
    }

    fn stop(&self) -> Result<()> {
        self.call("stop", &[])
    }

    fn verify_message(
        &self,
        address: &Address,
        signature: &Signature,
        message: &str,
    ) -> Result<bool> {
        let args = [address.to_string().into(), signature.to_string().into(), into_json(message)?];
        self.call("verifymessage", &args)
    }

    /// Generate new address under own control
    fn get_new_address(
        &self,
        label: Option<&str>,
        address_type: Option<json::AddressType>,
    ) -> Result<String> {
        self.call("getnewaddress", &[opt_into_json(label)?, opt_into_json(address_type)?])
    }

    /// Mine `block_num` blocks and pay coinbase to `address`
    ///
    /// Returns hashes of the generated blocks
    fn generate_to_address(&self, block_num: u64, address: &str) -> Result<Vec<sha256d::Hash>> {
        self.call("generatetoaddress", &[block_num.into(), address.into()])
    }

    /// Mine up to block_num blocks immediately (before the RPC call returns)
    /// to an address in the wallet.
    fn generate(&self, block_num: u64, maxtries: Option<u64>) -> Result<Vec<sha256d::Hash>> {
        self.call("generate", &[block_num.into(), opt_into_json(maxtries)?])
    }

    /// Mark a block as invalid by `block_hash`
    fn invalidate_block(&self, block_hash: &sha256d::Hash) -> Result<()> {
        self.call("invalidateblock", &[into_json(block_hash)?])
    }

    fn send_to_address(
        &self,
        address: &Address,
        amount: f64,
        comment: Option<&str>,
        comment_to: Option<&str>,
        substract_fee: Option<bool>,
        replaceable: Option<bool>,
        confirmation_target: Option<u32>,
        estimate_mode: Option<json::EstimateMode>,
    ) -> Result<sha256d::Hash> {
        let mut args = [
            address.to_string().into(),
            into_json(amount)?,
            opt_into_json(comment)?,
            opt_into_json(comment_to)?,
            opt_into_json(substract_fee)?,
            opt_into_json(replaceable)?,
            opt_into_json(confirmation_target)?,
            opt_into_json(estimate_mode)?,
        ];
        self.call("sendtoaddress", handle_defaults(&mut args, &vec![null(); 6]))
    }

    /// Returns data about each connected network node as an array of
    /// [`PeerInfo`][]
    ///
    /// [`PeerInfo`]: net/struct.PeerInfo.html
    fn get_peer_info(&self) -> Result<Vec<json::GetPeerInfoResult>> {
        self.call("getpeerinfo", &[])
    }

    /// Requests that a ping be sent to all other nodes, to measure ping
    /// time.
    ///
    /// Results provided in `getpeerinfo`, `pingtime` and `pingwait` fields
    /// are decimal seconds.
    ///
    /// Ping command is handled in queue with all other commands, so it
    /// measures processing backlog, not just network ping.
    fn ping(&self) -> Result<()> {
        self.call("ping", &[])
    }

    fn send_raw_transaction<R: RawTx>(&self, tx: R) -> Result<sha256d::Hash> {
        self.call("sendrawtransaction", &[tx.raw_hex().into()])
    }

    fn estimate_smartfee<E>(
        &self,
        conf_target: u16,
        estimate_mode: Option<json::EstimateMode>,
    ) -> Result<json::EstimateSmartFeeResult> {
        let mut args = [into_json(conf_target)?, opt_into_json(estimate_mode)?];
        self.call("estimatesmartfee", handle_defaults(&mut args, &[null()]))
    }

    /// Waits for a specific new block and returns useful info about it.
    /// Returns the current block on timeout or exit.
    ///
    /// # Arguments
    ///
    /// 1. `timeout`: Time in milliseconds to wait for a response. 0
    /// indicates no timeout.
    fn wait_for_new_block(&self, timeout: u64) -> Result<json::BlockRef> {
        self.call("waitfornewblock", &[into_json(timeout)?])
    }

    /// Waits for a specific new block and returns useful info about it.
    /// Returns the current block on timeout or exit.
    ///
    /// # Arguments
    ///
    /// 1. `blockhash`: Block hash to wait for.
    /// 2. `timeout`: Time in milliseconds to wait for a response. 0
    /// indicates no timeout.
    fn wait_for_block(&self, blockhash: &sha256d::Hash, timeout: u64) -> Result<json::BlockRef> {
        let args = [into_json(blockhash)?, into_json(timeout)?];
        self.call("waitforblock", &args)
    }
}

/// Client implements a JSON-RPC client for the Bitcoin Core daemon or compatible APIs.
pub struct Client {
    client: jsonrpc::client::Client,
}

impl Client {
    /// Creates a client to a bitcoind JSON-RPC server.
    ///
    /// Can only return [Err] when using cookie authentication.
    pub fn new(url: String, auth: Auth) -> Result<Self> {
        let (user, pass) = auth.get_user_pass()?;
        Ok(Client {
            client: jsonrpc::client::Client::new(url, user, pass),
        })
    }

    /// Create a new Client.
    pub fn from_jsonrpc(client: jsonrpc::client::Client) -> Client {
        Client {
            client: client,
        }
    }
}

impl RpcApi for Client {
    /// Call an `cmd` rpc with given `args` list
    fn call<T: for<'a> serde::de::Deserialize<'a>>(
        &self,
        cmd: &str,
        args: &[serde_json::Value],
    ) -> Result<T> {
        let req = self.client.build_request(&cmd, &args);
        if log_enabled!(Trace) {
            trace!("JSON-RPC request: {}", serde_json::to_string(&req).unwrap());
        }

        let resp = self.client.send_request(&req).map_err(Error::from);
        if log_enabled!(Trace) && resp.is_ok() {
            let resp = resp.as_ref().unwrap();
            trace!("JSON-RPC response: {}", serde_json::to_string(resp).unwrap());
        }
        Ok(resp?.into_result()?)
    }
}

#[cfg(test)]
mod tests {
    use super::*;
    use bitcoin;
    use serde_json;

    #[test]
    fn test_raw_tx() {
        use bitcoin::consensus::encode;
        let client = Client::new("http://localhost/".into(), Auth::None).unwrap();
        let tx: bitcoin::Transaction = encode::deserialize(&hex::decode("0200000001586bd02815cf5faabfec986a4e50d25dbee089bd2758621e61c5fab06c334af0000000006b483045022100e85425f6d7c589972ee061413bcf08dc8c8e589ce37b217535a42af924f0e4d602205c9ba9cb14ef15513c9d946fa1c4b797883e748e8c32171bdf6166583946e35c012103dae30a4d7870cd87b45dd53e6012f71318fdd059c1c2623b8cc73f8af287bb2dfeffffff021dc4260c010000001976a914f602e88b2b5901d8aab15ebe4a97cf92ec6e03b388ac00e1f505000000001976a914687ffeffe8cf4e4c038da46a9b1d37db385a472d88acfd211500").unwrap()).unwrap();

        assert!(client.send_raw_transaction(&tx).is_err());
        assert!(client.send_raw_transaction(&encode::serialize(&tx)).is_err());
        assert!(client.send_raw_transaction("deadbeef").is_err());
        assert!(client.send_raw_transaction("deadbeef".to_owned()).is_err());
    }

    fn test_handle_defaults_inner() -> Result<()> {
        {
            let mut args = [into_json(0)?, null(), null()];
            let defaults = [into_json(1)?, into_json(2)?];
            let res = [into_json(0)?];
            assert_eq!(handle_defaults(&mut args, &defaults), &res);
        }
        {
            let mut args = [into_json(0)?, into_json(1)?, null()];
            let defaults = [into_json(2)?];
            let res = [into_json(0)?, into_json(1)?];
            assert_eq!(handle_defaults(&mut args, &defaults), &res);
        }
        {
            let mut args = [into_json(0)?, null(), into_json(5)?];
            let defaults = [into_json(2)?, into_json(3)?];
            let res = [into_json(0)?, into_json(2)?, into_json(5)?];
            assert_eq!(handle_defaults(&mut args, &defaults), &res);
        }
        {
            let mut args = [into_json(0)?, null(), into_json(5)?, null()];
            let defaults = [into_json(2)?, into_json(3)?, into_json(4)?];
            let res = [into_json(0)?, into_json(2)?, into_json(5)?];
            assert_eq!(handle_defaults(&mut args, &defaults), &res);
        }
        {
            let mut args = [null(), null()];
            let defaults = [into_json(2)?, into_json(3)?];
            let res: [serde_json::Value; 0] = [];
            assert_eq!(handle_defaults(&mut args, &defaults), &res);
        }
        {
            let mut args = [null(), into_json(1)?];
            let defaults = [];
            let res = [null(), into_json(1)?];
            assert_eq!(handle_defaults(&mut args, &defaults), &res);
        }
        {
            let mut args = [];
            let defaults = [];
            let res: [serde_json::Value; 0] = [];
            assert_eq!(handle_defaults(&mut args, &defaults), &res);
        }
        {
            let mut args = [into_json(0)?];
            let defaults = [into_json(2)?];
            let res = [into_json(0)?];
            assert_eq!(handle_defaults(&mut args, &defaults), &res);
        }
        Ok(())
    }

    #[test]
    fn test_handle_defaults() {
        test_handle_defaults_inner().unwrap();
    }
}