1use std::{collections::HashMap, str::FromStr, sync::Arc};
19
20use arrow::{
21 array::{
22 Array, BinaryArray, BinaryBuilder, BooleanArray, BooleanBuilder, StringArray,
23 StringBuilder, UInt8Array, UInt64Array,
24 },
25 datatypes::{DataType, Field, Schema},
26 error::ArrowError,
27 record_batch::RecordBatch,
28};
29use nautilus_core::Params;
30use nautilus_model::{
31 identifiers::{InstrumentId, Symbol},
32 instruments::crypto_option_spread::CryptoOptionSpread,
33 types::{money::Money, price::Price, quantity::Quantity},
34};
35#[allow(unused)]
36use rust_decimal::Decimal;
37#[allow(unused)]
38use serde_json::Value;
39use ustr::Ustr;
40
41use crate::arrow::{
42 ArrowSchemaProvider, EncodeToRecordBatch, EncodingError, KEY_INSTRUMENT_ID,
43 KEY_PRICE_PRECISION, KEY_SIZE_PRECISION, extract_column, extract_column_by_name_or_index,
44 extract_optional_string_column_by_name, optional_ustr_value,
45};
46
47impl ArrowSchemaProvider for CryptoOptionSpread {
48 fn get_schema(metadata: Option<HashMap<String, String>>) -> Schema {
49 let fields = vec![
50 Field::new("id", DataType::Utf8, false),
51 Field::new("raw_symbol", DataType::Utf8, false),
52 Field::new("underlying", DataType::Utf8, false),
53 Field::new("quote_currency", DataType::Utf8, false),
54 Field::new("settlement_currency", DataType::Utf8, false),
55 Field::new("is_inverse", DataType::Boolean, false),
56 Field::new("strategy_type", DataType::Utf8, false),
57 Field::new("activation_ns", DataType::UInt64, false),
58 Field::new("expiration_ns", DataType::UInt64, false),
59 Field::new("price_precision", DataType::UInt8, false),
60 Field::new("size_precision", DataType::UInt8, false),
61 Field::new("price_increment", DataType::Utf8, false),
62 Field::new("size_increment", DataType::Utf8, false),
63 Field::new("multiplier", DataType::Utf8, false),
64 Field::new("lot_size", DataType::Utf8, false),
65 Field::new("max_quantity", DataType::Utf8, true),
66 Field::new("min_quantity", DataType::Utf8, true),
67 Field::new("max_notional", DataType::Utf8, true),
68 Field::new("min_notional", DataType::Utf8, true),
69 Field::new("max_price", DataType::Utf8, true),
70 Field::new("min_price", DataType::Utf8, true),
71 Field::new("margin_init", DataType::Utf8, false),
72 Field::new("margin_maint", DataType::Utf8, false),
73 Field::new("maker_fee", DataType::Utf8, false),
74 Field::new("taker_fee", DataType::Utf8, false),
75 Field::new("tick_scheme", DataType::Utf8, true),
76 Field::new("info", DataType::Binary, true),
77 Field::new("ts_event", DataType::UInt64, false),
78 Field::new("ts_init", DataType::UInt64, false),
79 ];
80
81 let mut final_metadata = HashMap::new();
82 final_metadata.insert("class".to_string(), "CryptoOptionSpread".to_string());
83
84 if let Some(meta) = metadata {
85 final_metadata.extend(meta);
86 }
87
88 Schema::new_with_metadata(fields, final_metadata)
89 }
90}
91
92impl EncodeToRecordBatch for CryptoOptionSpread {
93 fn encode_batch(
94 #[allow(unused)] metadata: &HashMap<String, String>,
95 data: &[Self],
96 ) -> Result<RecordBatch, ArrowError> {
97 let mut id_builder = StringBuilder::new();
98 let mut raw_symbol_builder = StringBuilder::new();
99 let mut underlying_builder = StringBuilder::new();
100 let mut quote_currency_builder = StringBuilder::new();
101 let mut settlement_currency_builder = StringBuilder::new();
102 let mut is_inverse_builder = BooleanBuilder::new();
103 let mut strategy_type_builder = StringBuilder::new();
104 let mut activation_ns_builder = UInt64Array::builder(data.len());
105 let mut expiration_ns_builder = UInt64Array::builder(data.len());
106 let mut price_precision_builder = UInt8Array::builder(data.len());
107 let mut size_precision_builder = UInt8Array::builder(data.len());
108 let mut price_increment_builder = StringBuilder::new();
109 let mut size_increment_builder = StringBuilder::new();
110 let mut multiplier_builder = StringBuilder::new();
111 let mut lot_size_builder = StringBuilder::new();
112 let mut max_quantity_builder = StringBuilder::new();
113 let mut min_quantity_builder = StringBuilder::new();
114 let mut max_notional_builder = StringBuilder::new();
115 let mut min_notional_builder = StringBuilder::new();
116 let mut max_price_builder = StringBuilder::new();
117 let mut min_price_builder = StringBuilder::new();
118 let mut margin_init_builder = StringBuilder::new();
119 let mut margin_maint_builder = StringBuilder::new();
120 let mut maker_fee_builder = StringBuilder::new();
121 let mut taker_fee_builder = StringBuilder::new();
122 let mut tick_scheme_builder = StringBuilder::new();
123 let mut info_builder = BinaryBuilder::new();
124 let mut ts_event_builder = UInt64Array::builder(data.len());
125 let mut ts_init_builder = UInt64Array::builder(data.len());
126
127 for co in data {
128 id_builder.append_value(co.id.to_string());
129 raw_symbol_builder.append_value(co.raw_symbol);
130 underlying_builder.append_value(co.underlying.to_string());
131 quote_currency_builder.append_value(co.quote_currency.to_string());
132 settlement_currency_builder.append_value(co.settlement_currency.to_string());
133 is_inverse_builder.append_value(co.is_inverse);
134 strategy_type_builder.append_value(co.strategy_type.as_str());
135 activation_ns_builder.append_value(co.activation_ns.as_u64());
136 expiration_ns_builder.append_value(co.expiration_ns.as_u64());
137 price_precision_builder.append_value(co.price_precision);
138 size_precision_builder.append_value(co.size_precision);
139 price_increment_builder.append_value(co.price_increment.to_string());
140 size_increment_builder.append_value(co.size_increment.to_string());
141 multiplier_builder.append_value(co.multiplier.to_string());
142 lot_size_builder.append_value(co.lot_size.to_string());
143
144 if let Some(max_qty) = co.max_quantity {
145 max_quantity_builder.append_value(max_qty.to_string());
146 } else {
147 max_quantity_builder.append_null();
148 }
149
150 if let Some(min_qty) = co.min_quantity {
151 min_quantity_builder.append_value(min_qty.to_string());
152 } else {
153 min_quantity_builder.append_null();
154 }
155
156 if let Some(max_not) = co.max_notional {
157 max_notional_builder.append_value(max_not.to_string());
158 } else {
159 max_notional_builder.append_null();
160 }
161
162 if let Some(min_not) = co.min_notional {
163 min_notional_builder.append_value(min_not.to_string());
164 } else {
165 min_notional_builder.append_null();
166 }
167
168 if let Some(max_p) = co.max_price {
169 max_price_builder.append_value(max_p.to_string());
170 } else {
171 max_price_builder.append_null();
172 }
173
174 if let Some(min_p) = co.min_price {
175 min_price_builder.append_value(min_p.to_string());
176 } else {
177 min_price_builder.append_null();
178 }
179
180 margin_init_builder.append_value(co.margin_init.to_string());
181 margin_maint_builder.append_value(co.margin_maint.to_string());
182 maker_fee_builder.append_value(co.maker_fee.to_string());
183 taker_fee_builder.append_value(co.taker_fee.to_string());
184
185 if let Some(tick_scheme) = co.tick_scheme {
186 tick_scheme_builder.append_value(tick_scheme);
187 } else {
188 tick_scheme_builder.append_null();
189 }
190
191 if let Some(ref info) = co.info {
192 match serde_json::to_vec(info) {
193 Ok(json_bytes) => info_builder.append_value(json_bytes),
194 Err(e) => {
195 return Err(ArrowError::InvalidArgumentError(format!(
196 "Failed to serialize info dict to JSON: {e}"
197 )));
198 }
199 }
200 } else {
201 info_builder.append_null();
202 }
203
204 ts_event_builder.append_value(co.ts_event.as_u64());
205 ts_init_builder.append_value(co.ts_init.as_u64());
206 }
207
208 let mut final_metadata = metadata.clone();
209 final_metadata.insert("class".to_string(), "CryptoOptionSpread".to_string());
210
211 RecordBatch::try_new(
212 Self::get_schema(Some(final_metadata)).into(),
213 vec![
214 Arc::new(id_builder.finish()),
215 Arc::new(raw_symbol_builder.finish()),
216 Arc::new(underlying_builder.finish()),
217 Arc::new(quote_currency_builder.finish()),
218 Arc::new(settlement_currency_builder.finish()),
219 Arc::new(is_inverse_builder.finish()),
220 Arc::new(strategy_type_builder.finish()),
221 Arc::new(activation_ns_builder.finish()),
222 Arc::new(expiration_ns_builder.finish()),
223 Arc::new(price_precision_builder.finish()),
224 Arc::new(size_precision_builder.finish()),
225 Arc::new(price_increment_builder.finish()),
226 Arc::new(size_increment_builder.finish()),
227 Arc::new(multiplier_builder.finish()),
228 Arc::new(lot_size_builder.finish()),
229 Arc::new(max_quantity_builder.finish()),
230 Arc::new(min_quantity_builder.finish()),
231 Arc::new(max_notional_builder.finish()),
232 Arc::new(min_notional_builder.finish()),
233 Arc::new(max_price_builder.finish()),
234 Arc::new(min_price_builder.finish()),
235 Arc::new(margin_init_builder.finish()),
236 Arc::new(margin_maint_builder.finish()),
237 Arc::new(maker_fee_builder.finish()),
238 Arc::new(taker_fee_builder.finish()),
239 Arc::new(tick_scheme_builder.finish()),
240 Arc::new(info_builder.finish()),
241 Arc::new(ts_event_builder.finish()),
242 Arc::new(ts_init_builder.finish()),
243 ],
244 )
245 }
246
247 fn metadata(&self) -> HashMap<String, String> {
248 let mut metadata = HashMap::new();
249 metadata.insert(KEY_INSTRUMENT_ID.to_string(), self.id.to_string());
250 metadata.insert(
251 KEY_PRICE_PRECISION.to_string(),
252 self.price_precision.to_string(),
253 );
254 metadata.insert(
255 KEY_SIZE_PRECISION.to_string(),
256 self.size_precision.to_string(),
257 );
258 metadata
259 }
260}
261
262pub fn decode_crypto_option_spread_batch(
269 #[allow(unused)] metadata: &HashMap<String, String>,
270 record_batch: &RecordBatch,
271) -> Result<Vec<CryptoOptionSpread>, EncodingError> {
272 let cols = record_batch.columns();
273 let num_rows = record_batch.num_rows();
274
275 let id_values = extract_column::<StringArray>(cols, "id", 0, DataType::Utf8)?;
276 let raw_symbol_values = extract_column::<StringArray>(cols, "raw_symbol", 1, DataType::Utf8)?;
277 let underlying_values = extract_column::<StringArray>(cols, "underlying", 2, DataType::Utf8)?;
278 let quote_currency_values =
279 extract_column::<StringArray>(cols, "quote_currency", 3, DataType::Utf8)?;
280 let settlement_currency_values =
281 extract_column::<StringArray>(cols, "settlement_currency", 4, DataType::Utf8)?;
282 let is_inverse_values =
283 extract_column::<BooleanArray>(cols, "is_inverse", 5, DataType::Boolean)?;
284 let strategy_type_values =
285 extract_column::<StringArray>(cols, "strategy_type", 6, DataType::Utf8)?;
286 let activation_ns_values =
287 extract_column::<UInt64Array>(cols, "activation_ns", 7, DataType::UInt64)?;
288 let expiration_ns_values =
289 extract_column::<UInt64Array>(cols, "expiration_ns", 8, DataType::UInt64)?;
290 let price_precision_values =
291 extract_column::<UInt8Array>(cols, "price_precision", 9, DataType::UInt8)?;
292 let size_precision_values =
293 extract_column::<UInt8Array>(cols, "size_precision", 10, DataType::UInt8)?;
294 let price_increment_values =
295 extract_column::<StringArray>(cols, "price_increment", 11, DataType::Utf8)?;
296 let size_increment_values =
297 extract_column::<StringArray>(cols, "size_increment", 12, DataType::Utf8)?;
298 let multiplier_values = extract_column::<StringArray>(cols, "multiplier", 13, DataType::Utf8)?;
299 let lot_size_values = extract_column::<StringArray>(cols, "lot_size", 14, DataType::Utf8)?;
300 let max_quantity_values = cols
301 .get(15)
302 .ok_or_else(|| EncodingError::MissingColumn("max_quantity", 15))?;
303 let min_quantity_values = cols
304 .get(16)
305 .ok_or_else(|| EncodingError::MissingColumn("min_quantity", 16))?;
306 let max_notional_values = cols
307 .get(17)
308 .ok_or_else(|| EncodingError::MissingColumn("max_notional", 17))?;
309 let min_notional_values = cols
310 .get(18)
311 .ok_or_else(|| EncodingError::MissingColumn("min_notional", 18))?;
312 let max_price_values = cols
313 .get(19)
314 .ok_or_else(|| EncodingError::MissingColumn("max_price", 19))?;
315 let min_price_values = cols
316 .get(20)
317 .ok_or_else(|| EncodingError::MissingColumn("min_price", 20))?;
318 let margin_init_values =
319 extract_column::<StringArray>(cols, "margin_init", 21, DataType::Utf8)?;
320 let margin_maint_values =
321 extract_column::<StringArray>(cols, "margin_maint", 22, DataType::Utf8)?;
322 let maker_fee_values = extract_column::<StringArray>(cols, "maker_fee", 23, DataType::Utf8)?;
323 let taker_fee_values = extract_column::<StringArray>(cols, "taker_fee", 24, DataType::Utf8)?;
324 let tick_scheme_values = extract_optional_string_column_by_name(record_batch, "tick_scheme")?;
325 let info_values =
326 extract_column_by_name_or_index::<BinaryArray>(record_batch, "info", 25, DataType::Binary)?;
327 let ts_event_values = extract_column_by_name_or_index::<UInt64Array>(
328 record_batch,
329 "ts_event",
330 26,
331 DataType::UInt64,
332 )?;
333 let ts_init_values = extract_column_by_name_or_index::<UInt64Array>(
334 record_batch,
335 "ts_init",
336 27,
337 DataType::UInt64,
338 )?;
339
340 let mut result = Vec::with_capacity(num_rows);
341
342 for i in 0..num_rows {
343 let id = InstrumentId::from_str(id_values.value(i))
344 .map_err(|e| EncodingError::ParseError("id", format!("row {i}: {e}")))?;
345 let raw_symbol = Symbol::from(raw_symbol_values.value(i));
346 let underlying = super::decode_currency(
347 underlying_values.value(i),
348 "underlying",
349 "crypto_option_spread.underlying",
350 i,
351 )?;
352 let quote_currency = super::decode_currency(
353 quote_currency_values.value(i),
354 "quote_currency",
355 "crypto_option_spread.quote_currency",
356 i,
357 )?;
358 let settlement_currency = super::decode_currency(
359 settlement_currency_values.value(i),
360 "settlement_currency",
361 "crypto_option_spread.settlement_currency",
362 i,
363 )?;
364 let is_inverse = is_inverse_values.value(i);
365 let strategy_type = Ustr::from(strategy_type_values.value(i));
366 let activation_ns = nautilus_core::UnixNanos::from(activation_ns_values.value(i));
367 let expiration_ns = nautilus_core::UnixNanos::from(expiration_ns_values.value(i));
368 let price_prec = price_precision_values.value(i);
369 let size_prec = size_precision_values.value(i);
370
371 let price_increment = Price::from_str(price_increment_values.value(i))
372 .map_err(|e| EncodingError::ParseError("price_increment", format!("row {i}: {e}")))?;
373 let size_increment = Quantity::from_str(size_increment_values.value(i))
374 .map_err(|e| EncodingError::ParseError("size_increment", format!("row {i}: {e}")))?;
375 let multiplier = Quantity::from_str(multiplier_values.value(i))
376 .map_err(|e| EncodingError::ParseError("multiplier", format!("row {i}: {e}")))?;
377 let lot_size = Quantity::from_str(lot_size_values.value(i))
378 .map_err(|e| EncodingError::ParseError("lot_size", format!("row {i}: {e}")))?;
379
380 let max_quantity =
381 if max_quantity_values.is_null(i) {
382 None
383 } else {
384 let value = max_quantity_values
385 .as_any()
386 .downcast_ref::<StringArray>()
387 .ok_or_else(|| {
388 EncodingError::ParseError("max_quantity", format!("row {i}: invalid type"))
389 })?
390 .value(i);
391 Some(Quantity::from_str(value).map_err(|e| {
392 EncodingError::ParseError("max_quantity", format!("row {i}: {e}"))
393 })?)
394 };
395
396 let min_quantity =
397 if min_quantity_values.is_null(i) {
398 None
399 } else {
400 let value = min_quantity_values
401 .as_any()
402 .downcast_ref::<StringArray>()
403 .ok_or_else(|| {
404 EncodingError::ParseError("min_quantity", format!("row {i}: invalid type"))
405 })?
406 .value(i);
407 Some(Quantity::from_str(value).map_err(|e| {
408 EncodingError::ParseError("min_quantity", format!("row {i}: {e}"))
409 })?)
410 };
411
412 let max_notional =
413 if max_notional_values.is_null(i) {
414 None
415 } else {
416 let value = max_notional_values
417 .as_any()
418 .downcast_ref::<StringArray>()
419 .ok_or_else(|| {
420 EncodingError::ParseError("max_notional", format!("row {i}: invalid type"))
421 })?
422 .value(i);
423 Some(Money::from_str(value).map_err(|e| {
424 EncodingError::ParseError("max_notional", format!("row {i}: {e}"))
425 })?)
426 };
427
428 let min_notional =
429 if min_notional_values.is_null(i) {
430 None
431 } else {
432 let value = min_notional_values
433 .as_any()
434 .downcast_ref::<StringArray>()
435 .ok_or_else(|| {
436 EncodingError::ParseError("min_notional", format!("row {i}: invalid type"))
437 })?
438 .value(i);
439 Some(Money::from_str(value).map_err(|e| {
440 EncodingError::ParseError("min_notional", format!("row {i}: {e}"))
441 })?)
442 };
443
444 let max_price = if max_price_values.is_null(i) {
445 None
446 } else {
447 let value = max_price_values
448 .as_any()
449 .downcast_ref::<StringArray>()
450 .ok_or_else(|| {
451 EncodingError::ParseError("max_price", format!("row {i}: invalid type"))
452 })?
453 .value(i);
454 Some(
455 Price::from_str(value)
456 .map_err(|e| EncodingError::ParseError("max_price", format!("row {i}: {e}")))?,
457 )
458 };
459
460 let min_price = if min_price_values.is_null(i) {
461 None
462 } else {
463 let value = min_price_values
464 .as_any()
465 .downcast_ref::<StringArray>()
466 .ok_or_else(|| {
467 EncodingError::ParseError("min_price", format!("row {i}: invalid type"))
468 })?
469 .value(i);
470 Some(
471 Price::from_str(value)
472 .map_err(|e| EncodingError::ParseError("min_price", format!("row {i}: {e}")))?,
473 )
474 };
475
476 let margin_init = Decimal::from_str(margin_init_values.value(i))
477 .map_err(|e| EncodingError::ParseError("margin_init", format!("row {i}: {e}")))?;
478 let margin_maint = Decimal::from_str(margin_maint_values.value(i))
479 .map_err(|e| EncodingError::ParseError("margin_maint", format!("row {i}: {e}")))?;
480 let maker_fee = Decimal::from_str(maker_fee_values.value(i))
481 .map_err(|e| EncodingError::ParseError("maker_fee", format!("row {i}: {e}")))?;
482 let taker_fee = Decimal::from_str(taker_fee_values.value(i))
483 .map_err(|e| EncodingError::ParseError("taker_fee", format!("row {i}: {e}")))?;
484
485 let info = if info_values.is_null(i) {
486 None
487 } else {
488 let info_bytes = info_values
489 .as_any()
490 .downcast_ref::<BinaryArray>()
491 .ok_or_else(|| EncodingError::ParseError("info", format!("row {i}: invalid type")))?
492 .value(i);
493
494 match serde_json::from_slice::<Params>(info_bytes) {
495 Ok(info_dict) => Some(info_dict),
496 Err(e) => {
497 return Err(EncodingError::ParseError(
498 "info",
499 format!("row {i}: failed to deserialize JSON: {e}"),
500 ));
501 }
502 }
503 };
504
505 let ts_event = nautilus_core::UnixNanos::from(ts_event_values.value(i));
506 let ts_init = nautilus_core::UnixNanos::from(ts_init_values.value(i));
507
508 let tick_scheme = optional_ustr_value(tick_scheme_values, i);
509
510 let crypto_option_spread = CryptoOptionSpread::new_checked(
511 id,
512 raw_symbol,
513 underlying,
514 quote_currency,
515 settlement_currency,
516 is_inverse,
517 strategy_type,
518 activation_ns,
519 expiration_ns,
520 price_prec,
521 size_prec,
522 price_increment,
523 size_increment,
524 Some(multiplier),
525 Some(lot_size),
526 max_quantity,
527 min_quantity,
528 max_notional,
529 min_notional,
530 max_price,
531 min_price,
532 Some(margin_init),
533 Some(margin_maint),
534 Some(maker_fee),
535 Some(taker_fee),
536 tick_scheme,
537 info,
538 ts_event,
539 ts_init,
540 )
541 .map_err(|e| super::instrument_validation_error::<CryptoOptionSpread>(i, e))?;
542
543 result.push(crypto_option_spread);
544 }
545
546 Ok(result)
547}