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4755a59a5b77cec9221c34d7e33cfd6e1f5040c8
fidc-backtest-engine/crates/fidc-core/tests/engine_hooks.rs
boris 4755a59a5b Emit futures order process events
2026-04-23 20:41:37 -07:00

2671 lines
84 KiB
Rust
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use std::cell::RefCell;
use std::collections::{BTreeMap, BTreeSet};
use std::rc::Rc;
use chrono::{NaiveDate, NaiveDateTime};
use fidc_core::{
BacktestConfig, BacktestEngine, BenchmarkSnapshot, BrokerSimulator, CandidateEligibility,
ChinaAShareCostModel, ChinaEquityRuleHooks, DailyFactorSnapshot, DailyMarketSnapshot, DataSet,
FuturesAccountState, FuturesContractSpec, FuturesDirection, FuturesOrderIntent, Instrument,
IntradayExecutionQuote, OpenOrderView, OrderIntent, OrderSide, OrderStatus, PortfolioState,
PriceField, ProcessEventKind, ScheduleRule, ScheduleStage, ScheduleTimeRule, Strategy,
StrategyContext, StrategyDecision,
};
fn d(year: i32, month: u32, day: u32) -> NaiveDate {
NaiveDate::from_ymd_opt(year, month, day).expect("valid date")
}
fn dt(year: i32, month: u32, day: u32, hour: u32, minute: u32, second: u32) -> NaiveDateTime {
d(year, month, day)
.and_hms_opt(hour, minute, second)
.expect("valid datetime")
}
fn bool_flags(values: Vec<bool>) -> String {
values
.into_iter()
.map(|value| if value { "1" } else { "0" })
.collect::<Vec<_>>()
.join(",")
}
struct HookProbeStrategy {
log: Rc<RefCell<Vec<String>>>,
}
impl Strategy for HookProbeStrategy {
fn name(&self) -> &str {
"hook-probe"
}
fn before_trading(
&mut self,
ctx: &StrategyContext<'_>,
) -> Result<(), fidc_core::BacktestError> {
self.log
.borrow_mut()
.push(format!("before:{}", ctx.execution_date));
Ok(())
}
fn open_auction(
&mut self,
ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
self.log
.borrow_mut()
.push(format!("auction:{}", ctx.execution_date));
Ok(StrategyDecision::default())
}
fn on_day(
&mut self,
ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
self.log
.borrow_mut()
.push(format!("on_day:{}", ctx.execution_date));
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents: Vec::new(),
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
fn after_trading(&mut self, ctx: &StrategyContext<'_>) -> Result<(), fidc_core::BacktestError> {
self.log
.borrow_mut()
.push(format!("after:{}", ctx.execution_date));
Ok(())
}
fn on_settlement(&mut self, ctx: &StrategyContext<'_>) -> Result<(), fidc_core::BacktestError> {
self.log
.borrow_mut()
.push(format!("settlement:{}", ctx.execution_date));
Ok(())
}
}
struct AuctionOrderStrategy {
saw_quantity_in_on_day: Rc<RefCell<Option<u32>>>,
}
impl Strategy for AuctionOrderStrategy {
fn name(&self) -> &str {
"auction-order"
}
fn open_auction(
&mut self,
_ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents: vec![fidc_core::OrderIntent::Value {
symbol: "000001.SZ".to_string(),
value: 1_000.0,
reason: "auction_buy".to_string(),
}],
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
fn on_day(
&mut self,
ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
let quantity = ctx
.portfolio
.position("000001.SZ")
.map(|position| position.quantity)
.unwrap_or(0);
*self.saw_quantity_in_on_day.borrow_mut() = Some(quantity);
Ok(StrategyDecision::default())
}
}
struct FuturesOrderStrategy;
impl Strategy for FuturesOrderStrategy {
fn name(&self) -> &str {
"futures-order"
}
fn on_day(
&mut self,
ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
if ctx.execution_date != d(2025, 1, 2) {
return Ok(StrategyDecision::default());
}
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents: vec![OrderIntent::Futures {
intent: FuturesOrderIntent::open(
"IF2501",
FuturesDirection::Long,
FuturesContractSpec::new(300.0, 0.12, 0.14),
1,
4000.0,
12.0,
"open index future",
),
}],
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
}
struct ScheduledProbeStrategy {
log: Rc<RefCell<Vec<String>>>,
process_log: Rc<RefCell<Vec<String>>>,
}
struct ProcessContextProbeStrategy {
snapshots: Rc<RefCell<Vec<String>>>,
}
struct LimitCarryStrategy {
issued: bool,
}
struct UniverseDirectiveStrategy {
snapshots: Rc<RefCell<Vec<String>>>,
}
struct TickProbeStrategy {
seen_ticks: Rc<RefCell<Vec<String>>>,
ordered: bool,
}
struct DataApiProbeStrategy {
target_date: NaiveDate,
snapshots: Rc<RefCell<Vec<String>>>,
}
struct OrderInspectionStrategy {
observed: Rc<RefCell<Vec<String>>>,
}
struct AccountFlowStrategy;
impl Strategy for ScheduledProbeStrategy {
fn name(&self) -> &str {
"scheduled-probe"
}
fn on_process_event(
&mut self,
_ctx: &StrategyContext<'_>,
event: &fidc_core::ProcessEvent,
) -> Result<(), fidc_core::BacktestError> {
self.process_log
.borrow_mut()
.push(format!("{:?}:{}", event.kind, event.detail));
Ok(())
}
fn schedule_rules(&self) -> Vec<ScheduleRule> {
vec![
ScheduleRule::daily("daily_before_trading", ScheduleStage::BeforeTrading)
.with_time_rule(ScheduleTimeRule::before_trading()),
ScheduleRule::daily("daily_market_open", ScheduleStage::OpenAuction)
.with_time_rule(ScheduleTimeRule::market_open(0, 0)),
ScheduleRule::weekly_by_weekday("friday_on_day", 5, ScheduleStage::OnDay)
.with_time_rule(ScheduleTimeRule::physical_time(10, 18)),
ScheduleRule::monthly("first_trading_day_on_day", 1, ScheduleStage::OnDay)
.with_time_rule(ScheduleTimeRule::physical_time(10, 18)),
]
}
fn on_scheduled(
&mut self,
ctx: &StrategyContext<'_>,
rule: &ScheduleRule,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
self.log
.borrow_mut()
.push(format!("scheduled:{}:{}", rule.name, ctx.execution_date));
Ok(StrategyDecision::default())
}
fn on_day(
&mut self,
_ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
Ok(StrategyDecision::default())
}
}
impl Strategy for LimitCarryStrategy {
fn name(&self) -> &str {
"limit-carry"
}
fn on_day(
&mut self,
_ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
if self.issued {
return Ok(StrategyDecision::default());
}
self.issued = true;
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents: vec![OrderIntent::LimitShares {
symbol: "000001.SZ".to_string(),
quantity: 200,
limit_price: 9.8,
reason: "carry_limit".to_string(),
}],
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
}
impl Strategy for ProcessContextProbeStrategy {
fn name(&self) -> &str {
"process-context-probe"
}
fn on_process_event(
&mut self,
ctx: &StrategyContext<'_>,
_event: &fidc_core::ProcessEvent,
) -> Result<(), fidc_core::BacktestError> {
self.snapshots.borrow_mut().push(format!(
"{}:{}:{}",
ctx.current_process_event_kind(),
ctx.latest_process_event_kind(),
ctx.process_event_count()
));
Ok(())
}
fn on_day(
&mut self,
_ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
Ok(StrategyDecision::default())
}
}
impl Strategy for UniverseDirectiveStrategy {
fn name(&self) -> &str {
"universe-directive-probe"
}
fn on_day(
&mut self,
ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
let eligible = ctx
.eligible_universe_on(ctx.execution_date)
.into_iter()
.map(|row| row.symbol)
.collect::<Vec<_>>()
.join(",");
self.snapshots.borrow_mut().push(format!(
"{}:{}:{}:{}",
ctx.execution_date,
ctx.dynamic_universe_count(),
ctx.subscription_count(),
eligible
));
let order_intents = match ctx.execution_date {
date if date == d(2025, 1, 2) => vec![
OrderIntent::UpdateUniverse {
symbols: BTreeSet::from(["000002.SZ".to_string()]),
reason: "focus_single_symbol".to_string(),
},
OrderIntent::Subscribe {
symbols: BTreeSet::from(["000001.SZ".to_string()]),
reason: "subscribe_probe".to_string(),
},
],
date if date == d(2025, 1, 3) => vec![OrderIntent::Unsubscribe {
symbols: BTreeSet::from(["000001.SZ".to_string()]),
reason: "unsubscribe_probe".to_string(),
}],
_ => Vec::new(),
};
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents,
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
}
impl Strategy for TickProbeStrategy {
fn name(&self) -> &str {
"tick-probe"
}
fn on_day(
&mut self,
_ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents: vec![OrderIntent::Subscribe {
symbols: BTreeSet::from(["000001.SZ".to_string()]),
reason: "subscribe_tick_probe".to_string(),
}],
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
fn on_tick(
&mut self,
ctx: &StrategyContext<'_>,
quote: &IntradayExecutionQuote,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
let visible_last = ctx
.history_bars(&quote.symbol, 9, "tick", "last", true)
.iter()
.map(|value| format!("{value:.2}"))
.collect::<Vec<_>>()
.join(",");
let previous_last = ctx
.history_bars(&quote.symbol, 9, "tick", "last", false)
.iter()
.map(|value| format!("{value:.2}"))
.collect::<Vec<_>>()
.join(",");
self.seen_ticks.borrow_mut().push(format!(
"{}:{}:{}:visible={visible_last}:previous={previous_last}",
quote.symbol,
quote.timestamp.time(),
ctx.is_subscribed(&quote.symbol)
));
if self.ordered {
return Ok(StrategyDecision::default());
}
self.ordered = true;
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents: vec![OrderIntent::Shares {
symbol: quote.symbol.clone(),
quantity: 100,
reason: "tick_buy".to_string(),
}],
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
}
impl Strategy for DataApiProbeStrategy {
fn name(&self) -> &str {
"data-api-probe"
}
fn on_day(
&mut self,
ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
if ctx.execution_date == self.target_date {
let daily_close = ctx
.history_bars("000001.SZ", 2, "1d", "close", true)
.iter()
.map(|value| format!("{value:.2}"))
.collect::<Vec<_>>()
.join(",");
let previous_close = ctx
.history_bars("000001.SZ", 2, "daily", "close", false)
.iter()
.map(|value| format!("{value:.2}"))
.collect::<Vec<_>>()
.join(",");
let tick_last = ctx
.history_bars("000001.SZ", 2, "1m", "last", true)
.iter()
.map(|value| format!("{value:.2}"))
.collect::<Vec<_>>()
.join(",");
let previous_tick_last = ctx
.history_bars("000001.SZ", 2, "1m", "last", false)
.iter()
.map(|value| format!("{value:.2}"))
.collect::<Vec<_>>()
.join(",");
let current_close = ctx
.current_snapshot("000001.SZ")
.map(|snapshot| format!("{:.2}", snapshot.close))
.unwrap_or_default();
let instrument_name = ctx
.instrument("000001.SZ")
.map(|instrument| instrument.name.clone())
.unwrap_or_default();
let prev_date = ctx
.get_previous_trading_date(ctx.execution_date, 1)
.map(|date| date.to_string())
.unwrap_or_default();
let next_date = ctx
.get_next_trading_date(d(2025, 1, 3), 1)
.map(|date| date.to_string())
.unwrap_or_default();
let trading_date_count = ctx
.get_trading_dates(d(2025, 1, 2), ctx.execution_date)
.len();
let suspended = bool_flags(ctx.is_suspended("000001.SZ", 3));
let st_flags = bool_flags(ctx.is_st_stock("000001.SZ", 3));
let daily_price_count = ctx
.get_price("000001.SZ", d(2025, 1, 3), ctx.execution_date, "1d")
.len();
let tick_price_count = ctx
.get_price("000001.SZ", d(2025, 1, 3), ctx.execution_date, "tick")
.len();
let instrument_history_count =
ctx.instruments_history(&["000001.SZ", "000002.SZ"]).len();
let active_instrument_count = ctx.active_instruments(&["000001.SZ", "000002.SZ"]).len();
self.snapshots.borrow_mut().push(format!(
"daily={daily_close};previous={previous_close};tick={tick_last};previous_tick={previous_tick_last};current={current_close};instrument={instrument_name};all={};history={instrument_history_count};active={active_instrument_count};range={trading_date_count};prev={prev_date};next={next_date};suspended={suspended};st={st_flags};price_daily={daily_price_count};price_tick={tick_price_count}",
ctx.all_instruments().len()
));
}
Ok(StrategyDecision::default())
}
}
impl Strategy for OrderInspectionStrategy {
fn name(&self) -> &str {
"order-inspection"
}
fn on_day(
&mut self,
_ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents: vec![OrderIntent::Shares {
symbol: "000001.SZ".to_string(),
quantity: 100,
reason: "inspect_buy".to_string(),
}],
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
fn after_trading(&mut self, ctx: &StrategyContext<'_>) -> Result<(), fidc_core::BacktestError> {
let order = ctx.order(1).expect("order 1 visible after trading");
self.observed.borrow_mut().push(format!(
"status={};filled={};unfilled={};avg={:.2};cost={:.2};symbol={};side={}",
order.status.as_str(),
order.filled_quantity,
order.unfilled_quantity,
order.avg_price,
order.transaction_cost,
order.symbol,
order.side.as_str()
));
Ok(())
}
}
impl Strategy for AccountFlowStrategy {
fn name(&self) -> &str {
"account-flow"
}
fn on_day(
&mut self,
ctx: &StrategyContext<'_>,
) -> Result<StrategyDecision, fidc_core::BacktestError> {
if ctx.execution_date != d(2025, 1, 2) {
return Ok(StrategyDecision::default());
}
Ok(StrategyDecision {
rebalance: false,
target_weights: BTreeMap::new(),
exit_symbols: BTreeSet::new(),
order_intents: vec![
OrderIntent::FinanceRepay {
amount: 1_000.0,
reason: "borrow".to_string(),
},
OrderIntent::DepositWithdraw {
amount: 500.0,
receiving_days: 0,
reason: "cash_in".to_string(),
},
OrderIntent::DepositWithdraw {
amount: 1_000.0,
receiving_days: 1,
reason: "cash_in_next_day".to_string(),
},
OrderIntent::SetManagementFeeRate {
rate: 0.01,
reason: "enable_fee".to_string(),
},
],
notes: Vec::new(),
diagnostics: Vec::new(),
})
}
fn management_fee(
&mut self,
_ctx: &StrategyContext<'_>,
_rate: f64,
) -> Result<Option<f64>, fidc_core::BacktestError> {
Ok(Some(42.0))
}
}
#[test]
fn engine_runs_strategy_hooks_in_daily_order() {
let date1 = d(2025, 1, 2);
let date2 = d(2025, 1, 3);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![
DailyMarketSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-02 10:18:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.0,
low: 10.0,
close: 10.0,
last_price: 10.0,
bid1: 10.0,
ask1: 10.0,
prev_close: 10.0,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
},
DailyMarketSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-03 10:18:00".to_string()),
day_open: 10.1,
open: 10.1,
high: 10.1,
low: 10.1,
close: 10.1,
last_price: 10.1,
bid1: 10.1,
ask1: 10.1,
prev_close: 10.0,
volume: 110_000,
tick_volume: 110_000,
bid1_volume: 110_000,
ask1_volume: 110_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
},
],
vec![
DailyFactorSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
DailyFactorSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
market_cap_bn: 21.0,
free_float_cap_bn: 19.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
],
vec![
CandidateEligibility {
date: date1,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
CandidateEligibility {
date: date2,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
],
vec![
BenchmarkSnapshot {
date: date1,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
},
BenchmarkSnapshot {
date: date2,
benchmark: "000300.SH".to_string(),
open: 101.0,
close: 101.0,
prev_close: 100.0,
volume: 1_100_000,
},
],
)
.expect("dataset");
let log = Rc::new(RefCell::new(Vec::new()));
let strategy = HookProbeStrategy { log: log.clone() };
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Open,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 100_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date1),
end_date: Some(date2),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Open,
},
);
let result = engine.run().expect("backtest succeeds");
assert_eq!(
log.borrow().as_slice(),
[
"before:2025-01-02",
"auction:2025-01-02",
"on_day:2025-01-02",
"after:2025-01-02",
"settlement:2025-01-02",
"before:2025-01-03",
"auction:2025-01-03",
"on_day:2025-01-03",
"after:2025-01-03",
"settlement:2025-01-03",
]
);
assert_eq!(result.process_events.len(), 36);
assert_eq!(
result.process_events[..18]
.iter()
.map(|event| &event.kind)
.collect::<Vec<_>>(),
vec![
&ProcessEventKind::PreBeforeTrading,
&ProcessEventKind::BeforeTrading,
&ProcessEventKind::PostBeforeTrading,
&ProcessEventKind::PreOpenAuction,
&ProcessEventKind::OpenAuction,
&ProcessEventKind::PostOpenAuction,
&ProcessEventKind::PreOnDay,
&ProcessEventKind::OnDay,
&ProcessEventKind::PreBar,
&ProcessEventKind::Bar,
&ProcessEventKind::PostOnDay,
&ProcessEventKind::PostBar,
&ProcessEventKind::PreAfterTrading,
&ProcessEventKind::AfterTrading,
&ProcessEventKind::PostAfterTrading,
&ProcessEventKind::PreSettlement,
&ProcessEventKind::Settlement,
&ProcessEventKind::PostSettlement,
]
);
}
#[test]
fn engine_executes_open_auction_decisions_before_on_day() {
let date = d(2025, 1, 2);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![DailyMarketSnapshot {
date,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-02 09:25:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.0,
low: 10.0,
close: 10.0,
last_price: 10.0,
bid1: 10.0,
ask1: 10.0,
prev_close: 10.0,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("open_auction".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
}],
vec![DailyFactorSnapshot {
date,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
}],
vec![CandidateEligibility {
date,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
}],
vec![BenchmarkSnapshot {
date,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
}],
)
.expect("dataset");
let observed_quantity = Rc::new(RefCell::new(None));
let strategy = AuctionOrderStrategy {
saw_quantity_in_on_day: observed_quantity.clone(),
};
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::DayOpen,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 10_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date),
end_date: Some(date),
decision_lag_trading_days: 0,
execution_price_field: PriceField::DayOpen,
},
);
let result = engine.run().expect("backtest run");
assert_eq!(*observed_quantity.borrow(), Some(100));
assert_eq!(result.fills.len(), 1);
assert_eq!(result.fills[0].reason, "auction_buy");
assert_eq!(result.fills[0].quantity, 100);
}
#[test]
fn engine_executes_futures_order_intents_against_future_account() {
let date = d(2025, 1, 2);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![DailyMarketSnapshot {
date,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-02 10:18:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.0,
low: 10.0,
close: 10.0,
last_price: 10.0,
bid1: 10.0,
ask1: 10.0,
prev_close: 9.9,
volume: 1_000_000,
tick_volume: 1_000_000,
bid1_volume: 1_000_000,
ask1_volume: 1_000_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 10.89,
lower_limit: 8.91,
price_tick: 0.01,
}],
vec![DailyFactorSnapshot {
date,
symbol: "000001.SZ".to_string(),
market_cap_bn: 100.0,
free_float_cap_bn: 80.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
}],
vec![CandidateEligibility {
date,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
}],
vec![BenchmarkSnapshot {
date,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
}],
)
.expect("dataset");
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Open,
);
let mut engine = BacktestEngine::new(
data,
FuturesOrderStrategy,
broker,
BacktestConfig {
initial_cash: 100_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date),
end_date: Some(date),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Open,
},
)
.with_futures_initial_cash(500_000.0);
let result = engine.run().expect("backtest succeeds");
assert!(result.order_events.iter().any(|event| {
event.symbol == "IF2501"
&& event.status == OrderStatus::Filled
&& event.filled_quantity == 1
}));
assert!(result.fills.iter().any(|fill| {
fill.symbol == "IF2501" && fill.quantity == 1 && (fill.commission - 12.0).abs() < 1e-6
}));
assert!(result.process_events.iter().any(|event| {
event.symbol.as_deref() == Some("IF2501") && event.kind == ProcessEventKind::Trade
}));
let futures_account = engine.futures_account().expect("future account");
let position = futures_account
.position("IF2501", FuturesDirection::Long)
.expect("long futures position");
assert_eq!(position.quantity, 1);
assert!((futures_account.total_cash() - 499_988.0).abs() < 1e-6);
assert!((futures_account.cash() - 355_988.0).abs() < 1e-6);
}
#[test]
fn engine_runs_subscribed_tick_hooks_and_executes_tick_orders() {
let date = d(2025, 1, 2);
let data = DataSet::from_components_with_actions_and_quotes(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![DailyMarketSnapshot {
date,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-02 10:18:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.4,
low: 9.9,
close: 10.3,
last_price: 10.2,
bid1: 10.1,
ask1: 10.2,
prev_close: 10.0,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
}],
vec![DailyFactorSnapshot {
date,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
}],
vec![CandidateEligibility {
date,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
}],
vec![BenchmarkSnapshot {
date,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
}],
Vec::new(),
vec![
IntradayExecutionQuote {
date,
symbol: "000001.SZ".to_string(),
timestamp: dt(2025, 1, 2, 10, 18, 0),
last_price: 10.2,
bid1: 10.1,
ask1: 10.2,
bid1_volume: 1_000,
ask1_volume: 1_000,
volume_delta: 1_000,
amount_delta: 10_200.0,
trading_phase: Some("continuous".to_string()),
},
IntradayExecutionQuote {
date,
symbol: "000001.SZ".to_string(),
timestamp: dt(2025, 1, 2, 10, 19, 0),
last_price: 10.3,
bid1: 10.2,
ask1: 10.3,
bid1_volume: 1_000,
ask1_volume: 1_000,
volume_delta: 1_000,
amount_delta: 10_300.0,
trading_phase: Some("continuous".to_string()),
},
],
)
.expect("dataset");
let seen_ticks = Rc::new(RefCell::new(Vec::new()));
let strategy = TickProbeStrategy {
seen_ticks: seen_ticks.clone(),
ordered: false,
};
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Last,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 10_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date),
end_date: Some(date),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Last,
},
);
let result = engine.run().expect("backtest run");
assert_eq!(
seen_ticks.borrow().as_slice(),
[
"000001.SZ:10:18:00:true:visible=10.20:previous=",
"000001.SZ:10:19:00:true:visible=10.20,10.30:previous=10.20"
]
);
assert_eq!(result.fills.len(), 1);
assert_eq!(result.fills[0].reason, "tick_buy");
assert_eq!(result.fills[0].quantity, 100);
assert!(
result
.process_events
.iter()
.any(|event| event.kind == ProcessEventKind::PreTick)
);
assert!(
result
.process_events
.iter()
.any(|event| event.kind == ProcessEventKind::Tick)
);
assert!(
result
.process_events
.iter()
.any(|event| event.kind == ProcessEventKind::PostTick)
);
}
#[test]
fn strategy_context_exposes_rqalpha_style_data_helpers() {
let date1 = d(2025, 1, 2);
let date2 = d(2025, 1, 3);
let date3 = d(2025, 1, 6);
let instruments = vec![
Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
},
Instrument {
symbol: "000002.SZ".to_string(),
name: "Historical".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: Some(date2),
status: "active".to_string(),
},
];
let market = [
(date1, 10.0, 10.0, 10.0, 100_000),
(date2, 10.1, 10.1, 10.0, 110_000),
(date3, 10.2, 10.2, 10.1, 120_000),
]
.into_iter()
.map(
|(date, open, close, prev_close, volume)| DailyMarketSnapshot {
date,
symbol: "000001.SZ".to_string(),
timestamp: Some(format!("{date} 10:18:00")),
day_open: open,
open,
high: close + 0.2,
low: close - 0.2,
close,
last_price: close,
bid1: close - 0.01,
ask1: close + 0.01,
prev_close,
volume,
tick_volume: volume,
bid1_volume: volume,
ask1_volume: volume,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: prev_close * 1.1,
lower_limit: prev_close * 0.9,
price_tick: 0.01,
},
)
.collect::<Vec<_>>();
let factors = [date1, date2, date3]
.into_iter()
.map(|date| DailyFactorSnapshot {
date,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
})
.collect::<Vec<_>>();
let candidates = [
(date1, false, false),
(date2, true, true),
(date3, false, false),
]
.into_iter()
.map(|(date, is_paused, is_st)| CandidateEligibility {
date,
symbol: "000001.SZ".to_string(),
is_st,
is_new_listing: false,
is_paused,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
})
.collect::<Vec<_>>();
let benchmarks = [
(date1, 100.0, 99.0),
(date2, 101.0, 100.0),
(date3, 102.0, 101.0),
]
.into_iter()
.map(|(date, close, prev_close)| BenchmarkSnapshot {
date,
benchmark: "000300.SH".to_string(),
open: close,
close,
prev_close,
volume: 1_000_000,
})
.collect::<Vec<_>>();
let quotes = vec![
IntradayExecutionQuote {
date: date2,
symbol: "000001.SZ".to_string(),
timestamp: dt(2025, 1, 3, 14, 30, 0),
last_price: 10.15,
bid1: 10.14,
ask1: 10.15,
bid1_volume: 1000,
ask1_volume: 1000,
volume_delta: 1000,
amount_delta: 10_150.0,
trading_phase: Some("continuous".to_string()),
},
IntradayExecutionQuote {
date: date3,
symbol: "000001.SZ".to_string(),
timestamp: dt(2025, 1, 6, 10, 18, 0),
last_price: 10.25,
bid1: 10.24,
ask1: 10.25,
bid1_volume: 1000,
ask1_volume: 1000,
volume_delta: 1000,
amount_delta: 10_250.0,
trading_phase: Some("continuous".to_string()),
},
IntradayExecutionQuote {
date: date3,
symbol: "000001.SZ".to_string(),
timestamp: dt(2025, 1, 6, 10, 19, 0),
last_price: 10.26,
bid1: 10.25,
ask1: 10.26,
bid1_volume: 1000,
ask1_volume: 1000,
volume_delta: 1000,
amount_delta: 10_260.0,
trading_phase: Some("continuous".to_string()),
},
];
let data = DataSet::from_components_with_actions_and_quotes(
instruments,
market,
factors,
candidates,
benchmarks,
Vec::new(),
quotes,
)
.expect("dataset");
let snapshots = Rc::new(RefCell::new(Vec::new()));
let strategy = DataApiProbeStrategy {
target_date: date3,
snapshots: snapshots.clone(),
};
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Open,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 10_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date1),
end_date: Some(date3),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Open,
},
);
engine.run().expect("backtest run");
assert_eq!(
snapshots.borrow().as_slice(),
[
"daily=10.10,10.20;previous=10.00,10.10;tick=10.15,10.25;previous_tick=10.15;current=10.20;instrument=Anchor;all=2;history=2;active=1;range=3;prev=2025-01-03;next=2025-01-06;suspended=0,1,0;st=0,1,0;price_daily=2;price_tick=3"
]
);
}
#[test]
fn strategy_context_exposes_final_order_runtime_view() {
let date = d(2025, 1, 2);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![DailyMarketSnapshot {
date,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-02 10:18:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.4,
low: 9.9,
close: 10.2,
last_price: 10.2,
bid1: 10.19,
ask1: 10.2,
prev_close: 10.0,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
}],
vec![DailyFactorSnapshot {
date,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
}],
vec![CandidateEligibility {
date,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
}],
vec![BenchmarkSnapshot {
date,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
}],
)
.expect("dataset");
let observed = Rc::new(RefCell::new(Vec::new()));
let strategy = OrderInspectionStrategy {
observed: observed.clone(),
};
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Close,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 10_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date),
end_date: Some(date),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Close,
},
);
engine.run().expect("backtest run");
assert_eq!(
observed.borrow().as_slice(),
["status=filled;filled=100;unfilled=0;avg=10.20;cost=5.00;symbol=000001.SZ;side=buy"]
);
}
#[test]
fn strategy_context_exposes_rqalpha_style_account_runtime_view() {
let prev_date = d(2025, 1, 2);
let date = d(2025, 1, 3);
let data = DataSet::from_components(
Vec::new(),
Vec::new(),
Vec::new(),
Vec::new(),
vec![BenchmarkSnapshot {
date,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
}],
)
.expect("dataset");
let mut portfolio = PortfolioState::new(10_000.0);
portfolio
.position_mut("000001.SZ")
.buy(prev_date, 100, 10.0);
portfolio.begin_trading_day();
portfolio.position_mut("000001.SZ").buy(date, 50, 11.0);
portfolio
.position_mut("000001.SZ")
.sell(40, 12.0)
.expect("sell");
portfolio.position_mut("000001.SZ").record_trade_cost(3.0);
let open_orders = vec![OpenOrderView {
order_id: 7,
symbol: "000002.SZ".to_string(),
side: OrderSide::Buy,
requested_quantity: 100,
filled_quantity: 0,
remaining_quantity: 50,
unfilled_quantity: 50,
status: OrderStatus::Pending,
avg_price: 0.0,
transaction_cost: 0.0,
limit_price: 12.0,
reason: "pending_buy".to_string(),
}];
let subscriptions = BTreeSet::new();
let ctx = StrategyContext {
execution_date: date,
decision_date: date,
decision_index: 0,
data: &data,
portfolio: &portfolio,
futures_account: None,
open_orders: &open_orders,
dynamic_universe: None,
subscriptions: &subscriptions,
process_events: &[],
active_process_event: None,
active_datetime: None,
order_events: &[],
fills: &[],
};
let account = ctx.account();
assert_eq!(account.account_type, "STOCK");
assert!((account.starting_cash - 10_000.0).abs() < 1e-6);
assert!((account.frozen_cash - 600.0).abs() < 1e-6);
assert!((account.available_cash - 9_400.0).abs() < 1e-6);
assert!((account.transaction_cost - 3.0).abs() < 1e-6);
assert!((account.daily_pnl - 247.0).abs() < 1e-6);
assert!((account.daily_returns - portfolio.daily_returns()).abs() < 1e-6);
assert!((account.total_returns - portfolio.total_returns()).abs() < 1e-6);
assert!((ctx.available_cash() - account.available_cash).abs() < 1e-6);
assert!(ctx.future_account().is_none());
assert!(ctx.account_by_type("FUTURE").is_none());
assert!((ctx.account_by_type("stock").unwrap().cash - account.cash).abs() < 1e-6);
assert_eq!(
ctx.accounts().keys().cloned().collect::<Vec<_>>(),
vec!["STOCK".to_string()]
);
let spec = FuturesContractSpec::new(300.0, 0.12, 0.14);
let mut futures_account = FuturesAccountState::new(500_000.0);
futures_account.open("IF2501", FuturesDirection::Long, spec, 2, 4000.0, 12.0);
futures_account.mark_price("IF2501", FuturesDirection::Long, 4010.0);
let future_ctx = StrategyContext {
execution_date: date,
decision_date: date,
decision_index: 0,
data: &data,
portfolio: &portfolio,
futures_account: Some(&futures_account),
open_orders: &open_orders,
dynamic_universe: None,
subscriptions: &subscriptions,
process_events: &[],
active_process_event: None,
active_datetime: None,
order_events: &[],
fills: &[],
};
let future_account = future_ctx.future_account().expect("future account");
assert_eq!(future_account.account_type, "FUTURE");
assert!((future_account.starting_cash - 500_000.0).abs() < 1e-6);
assert!((future_account.cash - 211_268.0).abs() < 1e-6);
assert!((future_account.market_value - 2_406_000.0).abs() < 1e-6);
assert!((future_account.total_value - 505_988.0).abs() < 1e-6);
assert!((future_ctx.account_by_type("future").unwrap().cash - 211_268.0).abs() < 1e-6);
assert_eq!(
future_ctx.accounts().keys().cloned().collect::<Vec<_>>(),
vec!["FUTURE".to_string(), "STOCK".to_string()]
);
}
#[test]
fn engine_applies_account_cash_flow_and_financing_intents() {
let date1 = d(2025, 1, 2);
let date2 = d(2025, 1, 3);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![
DailyMarketSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-02 10:18:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.0,
low: 10.0,
close: 10.0,
last_price: 10.0,
bid1: 9.99,
ask1: 10.01,
prev_close: 9.9,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
},
DailyMarketSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-03 10:18:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.0,
low: 10.0,
close: 10.0,
last_price: 10.0,
bid1: 9.99,
ask1: 10.01,
prev_close: 10.0,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
},
],
vec![
DailyFactorSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
DailyFactorSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
],
vec![
CandidateEligibility {
date: date1,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
CandidateEligibility {
date: date2,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
],
vec![
BenchmarkSnapshot {
date: date1,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
},
BenchmarkSnapshot {
date: date2,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 100.0,
volume: 1_000_000,
},
],
)
.expect("dataset");
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Close,
);
let mut engine = BacktestEngine::new(
data,
AccountFlowStrategy,
broker,
BacktestConfig {
initial_cash: 10_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date1),
end_date: Some(date2),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Close,
},
);
let result = engine.run().expect("backtest run");
assert!((result.equity_curve[0].cash - 11_458.0).abs() < 1e-6);
assert!((result.equity_curve[0].total_equity - 10_458.0).abs() < 1e-6);
assert!((result.equity_curve[1].cash - 12_416.0).abs() < 1e-6);
assert!((result.equity_curve[1].total_equity - 11_416.0).abs() < 1e-6);
assert!(result.account_events.iter().any(|event| {
event
.note
.contains("finance_repay amount=1000.00 liabilities_before=0.00")
}));
assert!(result.account_events.iter().any(|event| {
event
.note
.contains("deposit_withdraw_scheduled amount=1000.00")
}));
assert!(result.account_events.iter().any(|event| {
event
.note
.contains("deposit_withdraw_settled amount=1000.00")
}));
assert!(result.account_events.iter().any(|event| {
event
.note
.contains("management_fee rate=0.010000 fee=42.00")
}));
assert!(result.process_events.iter().any(|event| {
event.kind == ProcessEventKind::AccountFinanceRepay
&& event.detail.contains("liabilities_after=1000.00")
}));
assert!(result.process_events.iter().any(|event| {
event.kind == ProcessEventKind::AccountManagementFee && event.detail.contains("fee=42.00")
}));
}
#[test]
fn engine_rejects_pending_limit_orders_at_market_close() {
let date1 = d(2025, 1, 2);
let date2 = d(2025, 1, 3);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![
DailyMarketSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-02 10:18:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.1,
low: 9.9,
close: 10.0,
last_price: 10.0,
bid1: 10.0,
ask1: 10.0,
prev_close: 10.0,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
},
DailyMarketSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-03 10:18:00".to_string()),
day_open: 9.7,
open: 9.7,
high: 9.8,
low: 9.6,
close: 9.7,
last_price: 9.7,
bid1: 9.7,
ask1: 9.7,
prev_close: 10.0,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 10.67,
lower_limit: 9.0,
price_tick: 0.01,
},
],
vec![
DailyFactorSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
DailyFactorSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
market_cap_bn: 21.0,
free_float_cap_bn: 19.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
],
vec![
CandidateEligibility {
date: date1,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
CandidateEligibility {
date: date2,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
],
vec![
BenchmarkSnapshot {
date: date1,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
},
BenchmarkSnapshot {
date: date2,
benchmark: "000300.SH".to_string(),
open: 101.0,
close: 101.0,
prev_close: 100.0,
volume: 1_100_000,
},
],
)
.expect("dataset");
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Open,
);
let strategy = LimitCarryStrategy { issued: false };
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 100_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date1),
end_date: Some(date2),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Open,
},
);
let result = engine.run().expect("backtest run");
assert!(result.fills.is_empty());
assert!(result.holdings_summary.is_empty());
assert!(
result.order_events.iter().any(|event| {
event.date == date1 && event.status == fidc_core::OrderStatus::Pending
})
);
assert!(result.order_events.iter().any(|event| {
event.date == date1
&& event.status == fidc_core::OrderStatus::Rejected
&& event.reason.contains("Market close")
}));
assert!(result.process_events.iter().any(|event| {
event.date == date1 && event.kind == ProcessEventKind::OrderUnsolicitedUpdate
}));
}
#[test]
fn engine_runs_scheduled_rules_for_daily_weekly_and_monthly_triggers() {
let date1 = d(2025, 1, 30);
let date2 = d(2025, 1, 31);
let date3 = d(2025, 2, 3);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![
DailyMarketSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-30 09:25:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.1,
low: 9.9,
close: 10.0,
last_price: 10.0,
bid1: 10.0,
ask1: 10.0,
prev_close: 9.9,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("open_auction".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
},
DailyMarketSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-31 09:25:00".to_string()),
day_open: 10.1,
open: 10.1,
high: 10.2,
low: 10.0,
close: 10.1,
last_price: 10.1,
bid1: 10.1,
ask1: 10.1,
prev_close: 10.0,
volume: 110_000,
tick_volume: 110_000,
bid1_volume: 110_000,
ask1_volume: 110_000,
trading_phase: Some("open_auction".to_string()),
paused: false,
upper_limit: 11.1,
lower_limit: 9.1,
price_tick: 0.01,
},
DailyMarketSnapshot {
date: date3,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-02-03 09:25:00".to_string()),
day_open: 10.2,
open: 10.2,
high: 10.3,
low: 10.1,
close: 10.2,
last_price: 10.2,
bid1: 10.2,
ask1: 10.2,
prev_close: 10.1,
volume: 120_000,
tick_volume: 120_000,
bid1_volume: 120_000,
ask1_volume: 120_000,
trading_phase: Some("open_auction".to_string()),
paused: false,
upper_limit: 11.2,
lower_limit: 9.2,
price_tick: 0.01,
},
],
vec![
DailyFactorSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
DailyFactorSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
market_cap_bn: 21.0,
free_float_cap_bn: 19.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
DailyFactorSnapshot {
date: date3,
symbol: "000001.SZ".to_string(),
market_cap_bn: 22.0,
free_float_cap_bn: 20.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
],
vec![
CandidateEligibility {
date: date1,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
CandidateEligibility {
date: date2,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
CandidateEligibility {
date: date3,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
],
vec![
BenchmarkSnapshot {
date: date1,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
},
BenchmarkSnapshot {
date: date2,
benchmark: "000300.SH".to_string(),
open: 101.0,
close: 101.0,
prev_close: 100.0,
volume: 1_100_000,
},
BenchmarkSnapshot {
date: date3,
benchmark: "000300.SH".to_string(),
open: 102.0,
close: 102.0,
prev_close: 101.0,
volume: 1_200_000,
},
],
)
.expect("dataset");
let log = Rc::new(RefCell::new(Vec::new()));
let process_log = Rc::new(RefCell::new(Vec::new()));
let strategy = ScheduledProbeStrategy {
log: log.clone(),
process_log: process_log.clone(),
};
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::DayOpen,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 100_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date1),
end_date: Some(date3),
decision_lag_trading_days: 0,
execution_price_field: PriceField::DayOpen,
},
);
engine.run().expect("backtest run");
assert_eq!(
log.borrow().as_slice(),
[
"scheduled:daily_before_trading:2025-01-30",
"scheduled:daily_market_open:2025-01-30",
"scheduled:first_trading_day_on_day:2025-01-30",
"scheduled:daily_before_trading:2025-01-31",
"scheduled:daily_market_open:2025-01-31",
"scheduled:friday_on_day:2025-01-31",
"scheduled:daily_before_trading:2025-02-03",
"scheduled:daily_market_open:2025-02-03",
"scheduled:first_trading_day_on_day:2025-02-03",
]
);
let process_log = process_log.borrow();
assert!(
process_log.iter().any(|item| {
item == "PreScheduled:scheduled:daily_before_trading:before_trading:pre"
})
);
assert!(
process_log
.iter()
.any(|item| { item == "PostScheduled:scheduled:daily_market_open:open_auction:post" })
);
assert!(
process_log
.iter()
.any(|item| { item == "PreScheduled:scheduled:friday_on_day:on_day:pre" })
);
assert!(
process_log
.iter()
.any(|item| { item == "PostScheduled:scheduled:first_trading_day_on_day:on_day:post" })
);
}
#[test]
fn engine_dispatches_process_events_to_external_bus_listeners() {
let date1 = d(2025, 1, 30);
let date2 = d(2025, 1, 31);
let date3 = d(2025, 2, 3);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![
DailyMarketSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-30 09:25:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.1,
low: 9.9,
close: 10.0,
last_price: 10.0,
bid1: 10.0,
ask1: 10.0,
prev_close: 9.9,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("open_auction".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
},
DailyMarketSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-31 09:25:00".to_string()),
day_open: 10.1,
open: 10.1,
high: 10.2,
low: 10.0,
close: 10.1,
last_price: 10.1,
bid1: 10.1,
ask1: 10.1,
prev_close: 10.0,
volume: 110_000,
tick_volume: 110_000,
bid1_volume: 110_000,
ask1_volume: 110_000,
trading_phase: Some("open_auction".to_string()),
paused: false,
upper_limit: 11.1,
lower_limit: 9.1,
price_tick: 0.01,
},
DailyMarketSnapshot {
date: date3,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-02-03 09:25:00".to_string()),
day_open: 10.2,
open: 10.2,
high: 10.3,
low: 10.1,
close: 10.2,
last_price: 10.2,
bid1: 10.2,
ask1: 10.2,
prev_close: 10.1,
volume: 120_000,
tick_volume: 120_000,
bid1_volume: 120_000,
ask1_volume: 120_000,
trading_phase: Some("open_auction".to_string()),
paused: false,
upper_limit: 11.2,
lower_limit: 9.2,
price_tick: 0.01,
},
],
vec![
DailyFactorSnapshot {
date: date1,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
DailyFactorSnapshot {
date: date2,
symbol: "000001.SZ".to_string(),
market_cap_bn: 21.0,
free_float_cap_bn: 19.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
DailyFactorSnapshot {
date: date3,
symbol: "000001.SZ".to_string(),
market_cap_bn: 22.0,
free_float_cap_bn: 20.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
],
vec![
CandidateEligibility {
date: date1,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
CandidateEligibility {
date: date2,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
CandidateEligibility {
date: date3,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
],
vec![
BenchmarkSnapshot {
date: date1,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
},
BenchmarkSnapshot {
date: date2,
benchmark: "000300.SH".to_string(),
open: 101.0,
close: 101.0,
prev_close: 100.0,
volume: 1_100_000,
},
BenchmarkSnapshot {
date: date3,
benchmark: "000300.SH".to_string(),
open: 102.0,
close: 102.0,
prev_close: 101.0,
volume: 1_200_000,
},
],
)
.expect("dataset");
let log = Rc::new(RefCell::new(Vec::new()));
let process_log = Rc::new(RefCell::new(Vec::new()));
let strategy = ScheduledProbeStrategy { log, process_log };
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::DayOpen,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 100_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date1),
end_date: Some(date3),
decision_lag_trading_days: 0,
execution_price_field: PriceField::DayOpen,
},
);
let external_log = Rc::new(RefCell::new(Vec::new()));
engine.add_process_listener(ProcessEventKind::PreScheduled, {
let external_log = external_log.clone();
move |event| {
external_log
.borrow_mut()
.push(format!("{:?}:{}", event.kind, event.detail));
}
});
engine.add_process_listener(ProcessEventKind::PostScheduled, {
let external_log = external_log.clone();
move |event| {
external_log
.borrow_mut()
.push(format!("{:?}:{}", event.kind, event.detail));
}
});
engine.run().expect("backtest run");
let external_log = external_log.borrow();
assert!(
external_log.iter().any(|item| {
item == "PreScheduled:scheduled:daily_before_trading:before_trading:pre"
})
);
assert!(
external_log
.iter()
.any(|item| { item == "PostScheduled:scheduled:first_trading_day_on_day:on_day:post" })
);
}
#[test]
fn engine_applies_dynamic_universe_and_subscription_directives() {
let dates = [d(2025, 1, 2), d(2025, 1, 3), d(2025, 1, 6)];
let snapshots = Rc::new(RefCell::new(Vec::new()));
let strategy = UniverseDirectiveStrategy {
snapshots: snapshots.clone(),
};
let instruments = vec![
Instrument {
symbol: "000001.SZ".to_string(),
name: "One".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
},
Instrument {
symbol: "000002.SZ".to_string(),
name: "Two".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
},
];
let markets = dates
.iter()
.flat_map(|date| {
[
DailyMarketSnapshot {
date: *date,
symbol: "000001.SZ".to_string(),
timestamp: Some(format!("{date} 10:18:00")),
day_open: 10.0,
open: 10.0,
high: 10.1,
low: 9.9,
close: 10.0,
last_price: 10.0,
bid1: 9.99,
ask1: 10.01,
prev_close: 9.95,
volume: 100_000,
tick_volume: 5_000,
bid1_volume: 2_000,
ask1_volume: 2_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
},
DailyMarketSnapshot {
date: *date,
symbol: "000002.SZ".to_string(),
timestamp: Some(format!("{date} 10:18:00")),
day_open: 20.0,
open: 20.0,
high: 20.1,
low: 19.9,
close: 20.0,
last_price: 20.0,
bid1: 19.99,
ask1: 20.01,
prev_close: 19.95,
volume: 100_000,
tick_volume: 5_000,
bid1_volume: 2_000,
ask1_volume: 2_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 22.0,
lower_limit: 18.0,
price_tick: 0.01,
},
]
})
.collect::<Vec<_>>();
let factors = dates
.iter()
.flat_map(|date| {
[
DailyFactorSnapshot {
date: *date,
symbol: "000001.SZ".to_string(),
market_cap_bn: 10.0,
free_float_cap_bn: 8.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
DailyFactorSnapshot {
date: *date,
symbol: "000002.SZ".to_string(),
market_cap_bn: 12.0,
free_float_cap_bn: 10.0,
pe_ttm: 12.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
},
]
})
.collect::<Vec<_>>();
let candidates = dates
.iter()
.flat_map(|date| {
[
CandidateEligibility {
date: *date,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
CandidateEligibility {
date: *date,
symbol: "000002.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
},
]
})
.collect::<Vec<_>>();
let benchmarks = dates
.iter()
.map(|date| BenchmarkSnapshot {
date: *date,
benchmark: "000852.SH".to_string(),
open: 1000.0,
close: 1000.0,
prev_close: 999.0,
volume: 100_000,
})
.collect::<Vec<_>>();
let data = DataSet::from_components(instruments, markets, factors, candidates, benchmarks)
.expect("dataset");
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Open,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 1_000_000.0,
benchmark_code: "000852.SH".to_string(),
start_date: Some(dates[0]),
end_date: Some(dates[2]),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Open,
},
);
let result = engine.run().expect("backtest result");
assert_eq!(
snapshots.borrow().as_slice(),
&[
"2025-01-02:0:0:000001.SZ,000002.SZ",
"2025-01-03:1:1:000002.SZ",
"2025-01-06:1:0:000002.SZ",
]
);
assert!(
result
.process_events
.iter()
.any(|event| event.kind == ProcessEventKind::UniverseUpdated)
);
assert!(
result
.process_events
.iter()
.any(|event| event.kind == ProcessEventKind::UniverseSubscribed)
);
assert!(
result
.process_events
.iter()
.any(|event| event.kind == ProcessEventKind::UniverseUnsubscribed)
);
}
#[test]
fn engine_exposes_current_process_context_to_strategies() {
let date = d(2025, 1, 2);
let data = DataSet::from_components(
vec![Instrument {
symbol: "000001.SZ".to_string(),
name: "Anchor".to_string(),
board: "SZ".to_string(),
round_lot: 100,
listed_at: Some(d(2020, 1, 1)),
delisted_at: None,
status: "active".to_string(),
}],
vec![DailyMarketSnapshot {
date,
symbol: "000001.SZ".to_string(),
timestamp: Some("2025-01-02 10:18:00".to_string()),
day_open: 10.0,
open: 10.0,
high: 10.1,
low: 9.9,
close: 10.0,
last_price: 10.0,
bid1: 10.0,
ask1: 10.0,
prev_close: 9.9,
volume: 100_000,
tick_volume: 100_000,
bid1_volume: 100_000,
ask1_volume: 100_000,
trading_phase: Some("continuous".to_string()),
paused: false,
upper_limit: 11.0,
lower_limit: 9.0,
price_tick: 0.01,
}],
vec![DailyFactorSnapshot {
date,
symbol: "000001.SZ".to_string(),
market_cap_bn: 20.0,
free_float_cap_bn: 18.0,
pe_ttm: 10.0,
turnover_ratio: Some(1.0),
effective_turnover_ratio: Some(1.0),
extra_factors: BTreeMap::new(),
}],
vec![CandidateEligibility {
date,
symbol: "000001.SZ".to_string(),
is_st: false,
is_new_listing: false,
is_paused: false,
allow_buy: true,
allow_sell: true,
is_kcb: false,
is_one_yuan: false,
}],
vec![BenchmarkSnapshot {
date,
benchmark: "000300.SH".to_string(),
open: 100.0,
close: 100.0,
prev_close: 99.0,
volume: 1_000_000,
}],
)
.expect("dataset");
let snapshots = Rc::new(RefCell::new(Vec::new()));
let strategy = ProcessContextProbeStrategy {
snapshots: snapshots.clone(),
};
let broker = BrokerSimulator::new_with_execution_price(
ChinaAShareCostModel::default(),
ChinaEquityRuleHooks::default(),
PriceField::Last,
);
let mut engine = BacktestEngine::new(
data,
strategy,
broker,
BacktestConfig {
initial_cash: 100_000.0,
benchmark_code: "000300.SH".to_string(),
start_date: Some(date),
end_date: Some(date),
decision_lag_trading_days: 0,
execution_price_field: PriceField::Last,
},
);
engine.run().expect("backtest run");
let snapshots = snapshots.borrow();
assert_eq!(
snapshots.first().map(String::as_str),
Some("pre_before_trading:pre_before_trading:1")
);
assert!(snapshots.iter().any(|item| item == "on_day:on_day:8"));
}
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