use std::{collections::HashMap, str::FromStr, sync::Arc};
use arrow::{
array::{
BinaryArray, BinaryBuilder, BooleanArray, BooleanBuilder, StringArray, StringBuilder,
UInt8Array, UInt64Array,
},
datatypes::{DataType, Field, Schema},
error::ArrowError,
record_batch::RecordBatch,
};
use nautilus_core::Params;
use nautilus_model::{
identifiers::{InstrumentId, Symbol},
instruments::crypto_future::CryptoFuture,
types::{currency::Currency, money::Money, price::Price, quantity::Quantity},
};
#[allow(unused)]
use rust_decimal::Decimal;
#[allow(unused)]
use serde_json::Value;
use crate::arrow::{
ArrowSchemaProvider, EncodeToRecordBatch, EncodingError, KEY_INSTRUMENT_ID,
KEY_PRICE_PRECISION, KEY_SIZE_PRECISION, extract_column,
};
impl ArrowSchemaProvider for CryptoFuture {
fn get_schema(metadata: Option<HashMap<String, String>>) -> Schema {
let fields = vec![
Field::new("id", DataType::Utf8, false),
Field::new("raw_symbol", DataType::Utf8, false),
Field::new("underlying", DataType::Utf8, false),
Field::new("quote_currency", DataType::Utf8, false),
Field::new("settlement_currency", DataType::Utf8, false),
Field::new("is_inverse", DataType::Boolean, false),
Field::new("activation_ns", DataType::UInt64, false),
Field::new("expiration_ns", DataType::UInt64, false),
Field::new("price_precision", DataType::UInt8, false),
Field::new("size_precision", DataType::UInt8, false),
Field::new("price_increment", DataType::Utf8, false),
Field::new("size_increment", DataType::Utf8, false),
Field::new("multiplier", DataType::Utf8, false),
Field::new("max_quantity", DataType::Utf8, true), Field::new("min_quantity", DataType::Utf8, true), Field::new("max_notional", DataType::Utf8, true), Field::new("min_notional", DataType::Utf8, true), Field::new("max_price", DataType::Utf8, true), Field::new("min_price", DataType::Utf8, true), Field::new("margin_init", DataType::Utf8, false),
Field::new("margin_maint", DataType::Utf8, false),
Field::new("maker_fee", DataType::Utf8, false),
Field::new("taker_fee", DataType::Utf8, false),
Field::new("info", DataType::Binary, true), Field::new("ts_event", DataType::UInt64, false),
Field::new("ts_init", DataType::UInt64, false),
];
let mut final_metadata = HashMap::new();
final_metadata.insert("class".to_string(), "CryptoFuture".to_string());
if let Some(meta) = metadata {
final_metadata.extend(meta);
}
Schema::new_with_metadata(fields, final_metadata)
}
}
impl EncodeToRecordBatch for CryptoFuture {
fn encode_batch(
#[allow(unused)] metadata: &HashMap<String, String>,
data: &[Self],
) -> Result<RecordBatch, ArrowError> {
let mut id_builder = StringBuilder::new();
let mut raw_symbol_builder = StringBuilder::new();
let mut underlying_builder = StringBuilder::new();
let mut quote_currency_builder = StringBuilder::new();
let mut settlement_currency_builder = StringBuilder::new();
let mut is_inverse_builder = BooleanBuilder::new();
let mut activation_ns_builder = UInt64Array::builder(data.len());
let mut expiration_ns_builder = UInt64Array::builder(data.len());
let mut price_precision_builder = UInt8Array::builder(data.len());
let mut size_precision_builder = UInt8Array::builder(data.len());
let mut price_increment_builder = StringBuilder::new();
let mut size_increment_builder = StringBuilder::new();
let mut multiplier_builder = StringBuilder::new();
let mut max_quantity_builder = StringBuilder::new();
let mut min_quantity_builder = StringBuilder::new();
let mut max_notional_builder = StringBuilder::new();
let mut min_notional_builder = StringBuilder::new();
let mut max_price_builder = StringBuilder::new();
let mut min_price_builder = StringBuilder::new();
let mut margin_init_builder = StringBuilder::new();
let mut margin_maint_builder = StringBuilder::new();
let mut maker_fee_builder = StringBuilder::new();
let mut taker_fee_builder = StringBuilder::new();
let mut info_builder = BinaryBuilder::new();
let mut ts_event_builder = UInt64Array::builder(data.len());
let mut ts_init_builder = UInt64Array::builder(data.len());
for cf in data {
id_builder.append_value(cf.id.to_string());
raw_symbol_builder.append_value(cf.raw_symbol);
underlying_builder.append_value(cf.underlying.to_string());
quote_currency_builder.append_value(cf.quote_currency.to_string());
settlement_currency_builder.append_value(cf.settlement_currency.to_string());
is_inverse_builder.append_value(cf.is_inverse);
activation_ns_builder.append_value(cf.activation_ns.as_u64());
expiration_ns_builder.append_value(cf.expiration_ns.as_u64());
price_precision_builder.append_value(cf.price_precision);
size_precision_builder.append_value(cf.size_precision);
price_increment_builder.append_value(cf.price_increment.to_string());
size_increment_builder.append_value(cf.size_increment.to_string());
multiplier_builder.append_value(cf.multiplier.to_string());
if let Some(max_qty) = cf.max_quantity {
max_quantity_builder.append_value(max_qty.to_string());
} else {
max_quantity_builder.append_null();
}
if let Some(min_qty) = cf.min_quantity {
min_quantity_builder.append_value(min_qty.to_string());
} else {
min_quantity_builder.append_null();
}
if let Some(max_not) = cf.max_notional {
max_notional_builder.append_value(max_not.to_string());
} else {
max_notional_builder.append_null();
}
if let Some(min_not) = cf.min_notional {
min_notional_builder.append_value(min_not.to_string());
} else {
min_notional_builder.append_null();
}
if let Some(max_p) = cf.max_price {
max_price_builder.append_value(max_p.to_string());
} else {
max_price_builder.append_null();
}
if let Some(min_p) = cf.min_price {
min_price_builder.append_value(min_p.to_string());
} else {
min_price_builder.append_null();
}
margin_init_builder.append_value(cf.margin_init.to_string());
margin_maint_builder.append_value(cf.margin_maint.to_string());
maker_fee_builder.append_value(cf.maker_fee.to_string());
taker_fee_builder.append_value(cf.taker_fee.to_string());
if let Some(ref info) = cf.info {
match serde_json::to_vec(info) {
Ok(json_bytes) => {
info_builder.append_value(json_bytes);
}
Err(e) => {
return Err(ArrowError::InvalidArgumentError(format!(
"Failed to serialize info dict to JSON: {e}"
)));
}
}
} else {
info_builder.append_null();
}
ts_event_builder.append_value(cf.ts_event.as_u64());
ts_init_builder.append_value(cf.ts_init.as_u64());
}
let mut final_metadata = metadata.clone();
final_metadata.insert("class".to_string(), "CryptoFuture".to_string());
RecordBatch::try_new(
Self::get_schema(Some(final_metadata)).into(),
vec![
Arc::new(id_builder.finish()),
Arc::new(raw_symbol_builder.finish()),
Arc::new(underlying_builder.finish()),
Arc::new(quote_currency_builder.finish()),
Arc::new(settlement_currency_builder.finish()),
Arc::new(is_inverse_builder.finish()),
Arc::new(activation_ns_builder.finish()),
Arc::new(expiration_ns_builder.finish()),
Arc::new(price_precision_builder.finish()),
Arc::new(size_precision_builder.finish()),
Arc::new(price_increment_builder.finish()),
Arc::new(size_increment_builder.finish()),
Arc::new(multiplier_builder.finish()),
Arc::new(max_quantity_builder.finish()),
Arc::new(min_quantity_builder.finish()),
Arc::new(max_notional_builder.finish()),
Arc::new(min_notional_builder.finish()),
Arc::new(max_price_builder.finish()),
Arc::new(min_price_builder.finish()),
Arc::new(margin_init_builder.finish()),
Arc::new(margin_maint_builder.finish()),
Arc::new(maker_fee_builder.finish()),
Arc::new(taker_fee_builder.finish()),
Arc::new(info_builder.finish()),
Arc::new(ts_event_builder.finish()),
Arc::new(ts_init_builder.finish()),
],
)
}
fn metadata(&self) -> HashMap<String, String> {
let mut metadata = HashMap::new();
metadata.insert(KEY_INSTRUMENT_ID.to_string(), self.id.to_string());
metadata.insert(
KEY_PRICE_PRECISION.to_string(),
self.price_precision.to_string(),
);
metadata.insert(
KEY_SIZE_PRECISION.to_string(),
self.size_precision.to_string(),
);
metadata
}
}
pub fn decode_crypto_future_batch(
#[allow(unused)] metadata: &HashMap<String, String>,
record_batch: &RecordBatch,
) -> Result<Vec<CryptoFuture>, EncodingError> {
let cols = record_batch.columns();
let num_rows = record_batch.num_rows();
let id_values = extract_column::<StringArray>(cols, "id", 0, DataType::Utf8)?;
let raw_symbol_values = extract_column::<StringArray>(cols, "raw_symbol", 1, DataType::Utf8)?;
let underlying_values = extract_column::<StringArray>(cols, "underlying", 2, DataType::Utf8)?;
let quote_currency_values =
extract_column::<StringArray>(cols, "quote_currency", 3, DataType::Utf8)?;
let settlement_currency_values =
extract_column::<StringArray>(cols, "settlement_currency", 4, DataType::Utf8)?;
let is_inverse_values =
extract_column::<BooleanArray>(cols, "is_inverse", 5, DataType::Boolean)?;
let activation_ns_values =
extract_column::<UInt64Array>(cols, "activation_ns", 6, DataType::UInt64)?;
let expiration_ns_values =
extract_column::<UInt64Array>(cols, "expiration_ns", 7, DataType::UInt64)?;
let price_precision_values =
extract_column::<UInt8Array>(cols, "price_precision", 8, DataType::UInt8)?;
let size_precision_values =
extract_column::<UInt8Array>(cols, "size_precision", 9, DataType::UInt8)?;
let price_increment_values =
extract_column::<StringArray>(cols, "price_increment", 10, DataType::Utf8)?;
let size_increment_values =
extract_column::<StringArray>(cols, "size_increment", 11, DataType::Utf8)?;
let multiplier_values = extract_column::<StringArray>(cols, "multiplier", 12, DataType::Utf8)?;
let max_quantity_values = cols
.get(13)
.ok_or_else(|| EncodingError::MissingColumn("max_quantity", 13))?;
let min_quantity_values = cols
.get(14)
.ok_or_else(|| EncodingError::MissingColumn("min_quantity", 14))?;
let max_notional_values = cols
.get(15)
.ok_or_else(|| EncodingError::MissingColumn("max_notional", 15))?;
let min_notional_values = cols
.get(16)
.ok_or_else(|| EncodingError::MissingColumn("min_notional", 16))?;
let max_price_values = cols
.get(17)
.ok_or_else(|| EncodingError::MissingColumn("max_price", 17))?;
let min_price_values = cols
.get(18)
.ok_or_else(|| EncodingError::MissingColumn("min_price", 18))?;
let margin_init_values =
extract_column::<StringArray>(cols, "margin_init", 19, DataType::Utf8)?;
let margin_maint_values =
extract_column::<StringArray>(cols, "margin_maint", 20, DataType::Utf8)?;
let maker_fee_values = extract_column::<StringArray>(cols, "maker_fee", 21, DataType::Utf8)?;
let taker_fee_values = extract_column::<StringArray>(cols, "taker_fee", 22, DataType::Utf8)?;
let info_values = cols
.get(23)
.ok_or_else(|| EncodingError::MissingColumn("info", 23))?;
let ts_event_values = extract_column::<UInt64Array>(cols, "ts_event", 24, DataType::UInt64)?;
let ts_init_values = extract_column::<UInt64Array>(cols, "ts_init", 25, DataType::UInt64)?;
let mut result = Vec::with_capacity(num_rows);
for i in 0..num_rows {
let id = InstrumentId::from_str(id_values.value(i))
.map_err(|e| EncodingError::ParseError("id", format!("row {i}: {e}")))?;
let raw_symbol = Symbol::from(raw_symbol_values.value(i));
let underlying = Currency::from_str(underlying_values.value(i))
.map_err(|e| EncodingError::ParseError("underlying", format!("row {i}: {e}")))?;
let quote_currency = Currency::from_str(quote_currency_values.value(i))
.map_err(|e| EncodingError::ParseError("quote_currency", format!("row {i}: {e}")))?;
let settlement_currency =
Currency::from_str(settlement_currency_values.value(i)).map_err(|e| {
EncodingError::ParseError("settlement_currency", format!("row {i}: {e}"))
})?;
let is_inverse = is_inverse_values.value(i);
let activation_ns = nautilus_core::UnixNanos::from(activation_ns_values.value(i));
let expiration_ns = nautilus_core::UnixNanos::from(expiration_ns_values.value(i));
let price_prec = price_precision_values.value(i);
let size_prec = size_precision_values.value(i);
let price_increment = Price::from_str(price_increment_values.value(i))
.map_err(|e| EncodingError::ParseError("price_increment", format!("row {i}: {e}")))?;
let size_increment = Quantity::from_str(size_increment_values.value(i))
.map_err(|e| EncodingError::ParseError("size_increment", format!("row {i}: {e}")))?;
let multiplier = Quantity::from_str(multiplier_values.value(i))
.map_err(|e| EncodingError::ParseError("multiplier", format!("row {i}: {e}")))?;
let max_quantity =
if max_quantity_values.is_null(i) {
None
} else {
let max_qty_str = max_quantity_values
.as_any()
.downcast_ref::<StringArray>()
.ok_or_else(|| {
EncodingError::ParseError("max_quantity", format!("row {i}: invalid type"))
})?
.value(i);
Some(Quantity::from_str(max_qty_str).map_err(|e| {
EncodingError::ParseError("max_quantity", format!("row {i}: {e}"))
})?)
};
let min_quantity =
if min_quantity_values.is_null(i) {
None
} else {
let min_qty_str = min_quantity_values
.as_any()
.downcast_ref::<StringArray>()
.ok_or_else(|| {
EncodingError::ParseError("min_quantity", format!("row {i}: invalid type"))
})?
.value(i);
Some(Quantity::from_str(min_qty_str).map_err(|e| {
EncodingError::ParseError("min_quantity", format!("row {i}: {e}"))
})?)
};
let max_notional =
if max_notional_values.is_null(i) {
None
} else {
let max_not_str = max_notional_values
.as_any()
.downcast_ref::<StringArray>()
.ok_or_else(|| {
EncodingError::ParseError("max_notional", format!("row {i}: invalid type"))
})?
.value(i);
Some(Money::from_str(max_not_str).map_err(|e| {
EncodingError::ParseError("max_notional", format!("row {i}: {e}"))
})?)
};
let min_notional =
if min_notional_values.is_null(i) {
None
} else {
let min_not_str = min_notional_values
.as_any()
.downcast_ref::<StringArray>()
.ok_or_else(|| {
EncodingError::ParseError("min_notional", format!("row {i}: invalid type"))
})?
.value(i);
Some(Money::from_str(min_not_str).map_err(|e| {
EncodingError::ParseError("min_notional", format!("row {i}: {e}"))
})?)
};
let max_price = if max_price_values.is_null(i) {
None
} else {
let max_p_str = max_price_values
.as_any()
.downcast_ref::<StringArray>()
.ok_or_else(|| {
EncodingError::ParseError("max_price", format!("row {i}: invalid type"))
})?
.value(i);
Some(
Price::from_str(max_p_str)
.map_err(|e| EncodingError::ParseError("max_price", format!("row {i}: {e}")))?,
)
};
let min_price = if min_price_values.is_null(i) {
None
} else {
let min_p_str = min_price_values
.as_any()
.downcast_ref::<StringArray>()
.ok_or_else(|| {
EncodingError::ParseError("min_price", format!("row {i}: invalid type"))
})?
.value(i);
Some(
Price::from_str(min_p_str)
.map_err(|e| EncodingError::ParseError("min_price", format!("row {i}: {e}")))?,
)
};
let margin_init = Decimal::from_str(margin_init_values.value(i))
.map_err(|e| EncodingError::ParseError("margin_init", format!("row {i}: {e}")))?;
let margin_maint = Decimal::from_str(margin_maint_values.value(i))
.map_err(|e| EncodingError::ParseError("margin_maint", format!("row {i}: {e}")))?;
let maker_fee = Decimal::from_str(maker_fee_values.value(i))
.map_err(|e| EncodingError::ParseError("maker_fee", format!("row {i}: {e}")))?;
let taker_fee = Decimal::from_str(taker_fee_values.value(i))
.map_err(|e| EncodingError::ParseError("taker_fee", format!("row {i}: {e}")))?;
let info = if info_values.is_null(i) {
None
} else {
let info_bytes = info_values
.as_any()
.downcast_ref::<BinaryArray>()
.ok_or_else(|| EncodingError::ParseError("info", format!("row {i}: invalid type")))?
.value(i);
match serde_json::from_slice::<Params>(info_bytes) {
Ok(info_dict) => Some(info_dict),
Err(e) => {
return Err(EncodingError::ParseError(
"info",
format!("row {i}: failed to deserialize JSON: {e}"),
));
}
}
};
let ts_event = nautilus_core::UnixNanos::from(ts_event_values.value(i));
let ts_init = nautilus_core::UnixNanos::from(ts_init_values.value(i));
let crypto_future = CryptoFuture::new(
id,
raw_symbol,
underlying,
quote_currency,
settlement_currency,
is_inverse,
activation_ns,
expiration_ns,
price_prec,
size_prec,
price_increment,
size_increment,
Some(multiplier),
None, max_quantity,
min_quantity,
max_notional,
min_notional,
max_price,
min_price,
Some(margin_init),
Some(margin_maint),
Some(maker_fee),
Some(taker_fee),
info,
ts_event,
ts_init,
);
result.push(crypto_future);
}
Ok(result)
}