use crypto_market_type::{get_market_types, MarketType}; use crypto_markets::{fetch_markets, fetch_symbols}; use crypto_pair::get_market_type; use test_case::test_case; #[macro_use] mod utils; const EXCHANGE_NAME: &str = "huobi"; #[test] fn fetch_all_symbols() { gen_all_symbols!(); } #[test] fn fetch_spot_symbols() { let symbols = fetch_symbols(EXCHANGE_NAME, MarketType::Spot).unwrap(); assert!(!symbols.is_empty()); for symbol in symbols.iter() { assert_eq!(symbol.to_lowercase(), symbol.to_string()); assert_eq!(MarketType::Spot, get_market_type(symbol, EXCHANGE_NAME, None)); } } #[test] fn fetch_inverse_future_symbols() { let symbols = fetch_symbols(EXCHANGE_NAME, MarketType::InverseFuture).unwrap(); assert!(!symbols.is_empty()); for symbol in symbols.iter() { assert!( symbol.ends_with("_CW") || symbol.ends_with("_NW") || symbol.ends_with("_CQ") || symbol.ends_with("_NQ") ); assert_eq!(MarketType::InverseFuture, get_market_type(symbol, EXCHANGE_NAME, None)); } } #[test] fn fetch_inverse_swap_symbols() { let symbols = fetch_symbols(EXCHANGE_NAME, MarketType::InverseSwap).unwrap(); assert!(!symbols.is_empty()); for symbol in symbols.iter() { assert!(symbol.ends_with("-USD")); assert_eq!(MarketType::InverseSwap, get_market_type(symbol, EXCHANGE_NAME, None)); } } #[test] fn fetch_linear_swap_symbols() { let symbols = fetch_symbols(EXCHANGE_NAME, MarketType::LinearSwap).unwrap(); assert!(!symbols.is_empty()); for symbol in symbols.iter() { assert!(symbol.ends_with("-USDT")); assert_eq!(MarketType::LinearSwap, get_market_type(symbol, EXCHANGE_NAME, None)); } } #[test] #[ignore] fn fetch_option_symbols() { let symbols = fetch_symbols(EXCHANGE_NAME, MarketType::EuropeanOption).unwrap(); assert!(!symbols.is_empty()); for symbol in symbols.iter() { assert!(symbol.contains("-C-") || symbol.contains("-P-")); assert_eq!(MarketType::EuropeanOption, get_market_type(symbol, EXCHANGE_NAME, None)); } } #[test] fn fetch_spot_markets() { let markets = fetch_markets(EXCHANGE_NAME, MarketType::Spot).unwrap(); assert!(!markets.is_empty()); let btc_usdt = markets.iter().find(|m| m.symbol == "btcusdt").unwrap().clone(); assert_eq!(btc_usdt.precision.tick_size, 0.01); assert_eq!(btc_usdt.precision.lot_size, 0.000001); let quantity_limit = btc_usdt.quantity_limit.unwrap(); assert_eq!(quantity_limit.min.unwrap(), 0.0001); assert_eq!(quantity_limit.max, Some(1000.0)); } #[test] fn fetch_inverse_future_markets() { let markets = fetch_markets(EXCHANGE_NAME, MarketType::InverseFuture).unwrap(); assert!(!markets.is_empty()); let btc_usd = markets.iter().find(|m| m.symbol == "BTC_CW").unwrap().clone(); assert_eq!(btc_usd.precision.tick_size, 0.01); assert_eq!(btc_usd.precision.lot_size, 1.0); assert!(btc_usd.quantity_limit.is_none()); } #[test] fn fetch_inverse_swap_markets() { let markets = fetch_markets(EXCHANGE_NAME, MarketType::InverseSwap).unwrap(); assert!(!markets.is_empty()); let btc_usd = markets.iter().find(|m| m.symbol == "BTC-USD").unwrap().clone(); assert_eq!(btc_usd.precision.tick_size, 0.1); assert_eq!(btc_usd.precision.lot_size, 1.0); assert!(btc_usd.quantity_limit.is_none()); } #[test] fn fetch_linear_swap_markets() { let markets = fetch_markets(EXCHANGE_NAME, MarketType::LinearSwap).unwrap(); assert!(!markets.is_empty()); let btc_usdt = markets.iter().find(|m| m.symbol == "BTC-USDT").unwrap().clone(); assert_eq!(btc_usdt.precision.tick_size, 0.1); assert_eq!(btc_usdt.precision.lot_size, 1.0); assert!(btc_usdt.quantity_limit.is_none()); } #[test_case(MarketType::InverseFuture)] #[test_case(MarketType::InverseSwap)] #[test_case(MarketType::LinearSwap)] fn test_contract_values(market_type: MarketType) { check_contract_values!(EXCHANGE_NAME, market_type); }