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from db import dbengine, dbconn
from dates import bond_cal
import numpy as np
from analytics.utils import roll_date, previous_twentieth
from pandas.tseries.offsets import BDay
from pyisda.curve import SpreadCurve, fill_curve
from multiprocessing import Pool
from yieldcurve import get_curve
import datetime
import pandas as pd
_serenitas_engine = dbengine('serenitasdb')
def insert_quotes():
"""
backpopulate some version i+1 quotes one day before they start trading so that
we get continuous time series when we compute returns.
We can also do it in sql as follows:
INSERT INTO index_quotes(date, index, series, version, tenor, closeprice)
SELECT date, index, series, version+1, tenor, (factor1*closeprice-100*0.355)/factor2
FROM index_quotes
WHERE index='HY' and series=23 and date='2017-02-02'
"""
dates = pd.DatetimeIndex(['2014-05-21', '2015-02-19', '2015-03-05','2015-06-23'])
df = pd.read_sql_query("SELECT DISTINCT ON (date) * FROM index_quotes " \
"WHERE index='HY' AND tenor='5yr' " \
"ORDER BY date, series DESC, version DESC",
_serenitas_engine, parse_dates=['date'], index_col=['date'])
df = df.loc[dates]
for tup in df.itertuples():
result = serenitasdb.execute("SELECT indexfactor, cumulativeloss FROM index_version " \
"WHERE index = 'HY' AND series=%s AND version in (%s, %s)" \
"ORDER BY version",
(tup.series, tup.version, tup.version+1))
factor1, cumloss1 = result.fetchone()
factor2, cumloss2 = result.fetchone()
recovery = 1-(cumloss2-cumloss1)
version2_price = (factor1 * tup.closeprice - 100*recovery)/factor2
print(version2_price)
_serenitas_engine.execute("INSERT INTO index_quotes(date, index, series, version, tenor, closeprice)" \
"VALUES(%s, %s, %s, %s, %s, %s)",
(tup.Index, 'HY', tup.series, tup.version+1, tup.tenor, version2_price))
def get_index_quotes(index=None, series=None, tenor=None, from_date=None, years=3):
args = locals().copy()
if args['years'] is not None:
args['date'] = (pd.Timestamp.now() - pd.DateOffset(years=years)).date()
del args['years']
if args['from_date']:
args['date'] = args['from_date']
del args['from_date']
def make_str(key, val):
if isinstance(val, list):
op = "IN"
return "{} IN %({})s".format(key, key)
elif isinstance(val, datetime.date):
op = ">="
else:
op = "="
return "{} {} %({})s".format(key, op, key)
where_clause = " AND ".join(make_str(k, v)
for k, v in args.items() if v is not None)
sql_str = "SELECT * FROM index_quotes"
if where_clause:
sql_str = " WHERE ".join([sql_str, where_clause])
def make_params(args):
return {k: tuple(v) if isinstance(v, list) else v
for k, v in args.items() if v is not None}
df = pd.read_sql_query(sql_str, _serenitas_engine, parse_dates=['date'],
index_col=['date', 'index', 'series', 'version'],
params = make_params(args))
df.tenor = pd.Categorical(df.tenor, categories=("3yr", "5yr", "7yr", "10yr"), ordered=True)
df = df.set_index('tenor', append=True)
df.sort_index(inplace=True)
## get rid of US holidays
dates = df.index.levels[0]
if index in ['IG', 'HY']:
holidays = bond_cal().holidays(start=dates[0], end=dates[-1])
df = df.loc(axis=0)[dates.difference(holidays),:,:]
return df
def index_returns(df=None, index=None, series=None, tenor=None, from_date=None, years=3, per=1):
"""computes daily spreads and price returns
Parameters
----------
df : pandas.DataFrame
index : str or List[str], optional
index type, one of 'IG', 'HY', 'EU', 'XO'
series : int or List[int], optional
tenor : str or List[str], optional
tenor in years e.g: '3yr', '5yr'
date : datetime.date, optional
starting date
years : int, optional
limits many years do we go back starting from today.
per: int, optional
calculate returns across different time frames
"""
if df is None:
df = get_index_quotes(index, series, tenor, from_date, years)
df = (df.
groupby(level=['index', 'series', 'tenor', 'version'])
[['closespread','closeprice']].
pct_change(periods=per))
df.columns = ['spread_return', 'price_return']
df = df.groupby(level=['date', 'index', 'series', 'tenor']).nth(0)
coupon_data = pd.read_sql_query("SELECT index, series, tenor, coupon * 1e-4 AS coupon, maturity FROM " \
"index_maturity WHERE coupon is NOT NULL", _serenitas_engine,
index_col=['index', 'series', 'tenor'])
df = df.reset_index('date').join(coupon_data)
df['day_frac'] = (df.groupby(level=['index', 'series', 'tenor'])['date'].
diff().
astype('timedelta64[D]') / 360)
df['price_return'] += df.day_frac * df.coupon
del df['day_frac']
return df
def get_singlenames_quotes(indexname, date):
conn = dbconn('serenitasdb')
with conn.cursor() as c:
c.execute("SELECT * FROM curve_quotes(%s, %s)", vars=(indexname, date))
return [r for r in c]
def build_curve(r, today_date, yc, start_date, step_in_date, value_date, end_dates):
spread_curve = 1e-4 * np.array(r['spread_curve'], dtype='float')
upfront_curve = 1e-2 * np.array(r['upfront_curve'], dtype='float')
recovery_curve = np.array(r['recovery_curve'], dtype='float')
try:
sc = SpreadCurve(today_date, yc, start_date, step_in_date, value_date,
end_dates, spread_curve, upfront_curve, recovery_curve,
ticker=r['cds_ticker'])
if len(sc) != end_dates.shape[0]:
sc = fill_curve(sc, end_dates)
except ValueError as e:
print(r[0], e)
return None
return sc
def build_curves(quotes, args):
return [build_curve(q, *args) for q in quotes if q is not None]
def build_curves_dist(quotes, args, workers=4):
## about twice as fast as the non distributed version
## non thread safe for some reason so need ProcessPool
with Pool(workers) as pool:
r = pool.starmap(build_curve, [(q, *args) for q in quotes], 30)
return r
def get_singlenames_curves(index_type, series, trade_date):
end_dates = roll_date(trade_date, [0.5, 1, 2, 3, 4, 5, 7, 10], nd_array=True)
sn_quotes = get_singlenames_quotes("{}{}".format(index_type.lower(), series),
trade_date.date())
currency = "EUR" if index_type in ["XO", "EU"] else "USD"
jp_yc = get_curve(trade_date, currency)
start_date = previous_twentieth(trade_date)
step_in_date = trade_date + datetime.timedelta(days=1)
value_date = pd.Timestamp(trade_date) + 3 * BDay()
args = (trade_date, jp_yc, start_date, step_in_date, value_date, end_dates)
curves = build_curves_dist(sn_quotes, args)
return curves, args
def get_tranche_quotes(index_type, series, tenor, date=datetime.date.today()):
conn = dbconn('serenitasdb')
with conn.cursor() as c:
c.callproc("get_tranche_quotes", (index_type, series, tenor, date))
return pd.DataFrame.from_records(dict(d) for d in c)
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