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prod_tgt.py
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prod_tgt.py
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#!/usr/bin/env python
from regress import *
from loaddata import *
from load_data_live import *
from util import *
from pandas.stats.moments import ewma
def wavg(group):
b = group['pbeta']
d = group['log_ret']
w = group['mkt_cap_y'] / 1e6
print "Mkt return: {} {}".format(group['gdate'], ((d * w).sum() / w.sum()))
res = b * ((d * w).sum() / w.sum())
return res
def calc_tgt_daily(daily_df, horizon):
print "Caculating daily tgt..."
result_df = filter_expandable(daily_df)
print "Calculating tgt0..."
halflife = horizon / 2
# result_df['dk'] = np.exp( -1.0 * halflife * (result_df['gdate'] - result_df['last']).astype('timedelta64[D]').astype(int) )
# print result_df.columns
# result_df['bret'] = result_df[['log_ret', 'pbeta', 'mkt_cap_y', 'gdate']].groupby('gdate').apply(wavg).reset_index(level=0)['pbeta']
# result_df['badjret'] = result_df['log_ret'] - result_df['bret']
# result_df['badj0_B'] = winsorize_by_date(result_df[ 'badjret' ])
#result_df['median_diff'] = result_df['target_median'].unstack().diff().stack()
#result_df.loc[ result_df['std_diff'] <= 0, 'target_diff_mean'] = 0
result_df['tgt0'] = winsorize_by_date(np.log(result_df['target_median'] / result_df['close_y']))
# result_df['median'] = -1.0 * (result_df['median'] - 3)
# result_df['med_diff'] = result_df['median'].unstack().diff().stack()
# result_df['med_diff_dk'] = pd.rolling_sum( result_df['dk'] * result_df['med_diff'], window=horizon )
# result_df['tgt0'] = (np.sign(result_df['med_diff_dk']) * np.sign(result_df['cum_ret'])).clip(lower=0) * result_df['med_diff_dk']
demean = lambda x: (x - x.mean())
indgroups = result_df[['tgt0', 'gdate', 'ind1']].groupby(['gdate', 'ind1'], sort=True).transform(demean)
result_df['tgt0_ma'] = indgroups['tgt0']
# result_df['tgt0_ma'] = result_df['tgt0_ma'] * (np.sign(result_df['tgt0_ma']) * np.sign(result_df['cum_ret']))
# result_df['tgt0_ma'] = result_df['tgt0']
for lag in range(1,horizon+1):
shift_df = result_df.unstack().shift(lag).stack()
result_df['tgt'+str(lag)+'_ma'] = shift_df['tgt0_ma']
return result_df
def generate_coefs(daily_df, horizon, fitfile=None):
insample_daily_df = daily_df
fits_df = pd.DataFrame(columns=['horizon', 'coef', 'indep', 'tstat', 'nobs', 'stderr', 'intercept'])
for ii in range(1, horizon+1):
fitresults_df = regress_alpha(insample_daily_df, 'tgt0_ma', ii, True, 'daily', True)
# fitresults_df['intercept'] = fitresults_df['intercept'] - intercepts[ii]
fits_df = fits_df.append(fitresults_df, ignore_index=True)
fits_df.set_index(keys=['indep', 'horizon'], inplace=True)
coef0 = fits_df.ix['tgt0_ma'].ix[horizon].ix['coef']
# intercept0 = fits_df.ix['tgt0_ma'].ix[horizon].ix['intercept']
print "Coef{}: {}".format(0, coef0)
coef_list = list()
coef_list.append( { 'name': 'tgt0_ma_coef', 'coef': coef0 } )
for lag in range(1,horizon):
coef = coef0 - fits_df.ix['tgt0_ma'].ix[lag].ix['coef']
# intercept = intercept0 - fits_df.ix['tgt0_ma'].ix[lag].ix['intercept']
print "Coef{}: {}".format(lag, coef)
coef_list.append( { 'name': 'tgt'+str(lag)+'_ma_coef', 'coef': coef } )
coef_df = pd.DataFrame(coef_list)
coef_df.to_csv(fitfile)
return 1
def tgt_alpha(daily_df, horizon, fitfile=None):
coef_df = pd.read_csv(fitfile, header=0, index_col=['name'])
outsample_daily_df = daily_df
outsample_daily_df['tgt'] = 0.0
for lag in range(0,horizon):
coef = coef_df.ix[ 'tgt'+str(lag)+'_ma_coef' ]['coef']
print "Coef: {}".format(coef)
outsample_daily_df[ 'tgt'+str(lag)+'_ma_coef' ] = coef
print outsample_daily_df['tgt'].describe()
outsample_daily_df[ 'tgt' ] = (outsample_daily_df['tgt0_ma'] * outsample_daily_df['tgt0_ma_coef']).fillna(0) #+ outsample_daily_df['tgt0_ma_intercept']
for lag in range(1,horizon):
print outsample_daily_df['tgt'].describe()
outsample_daily_df[ 'tgt'] += (outsample_daily_df['tgt'+str(lag)+'_ma'] * outsample_daily_df['tgt'+str(lag)+'_ma_coef']).fillna(0) #+ outsample_daily_df['tgt'+str(lag)+'_ma_intercept']
print outsample_daily_df['tgt'].describe()
return outsample_daily_df
def calc_tgt_forecast(daily_df, horizon, coeffile, fit):
daily_results_df = calc_tgt_daily(daily_df, horizon)
#results = list()
# for sector_name in daily_results_df['sector_name'].dropna().unique():
# print "Running tgt for sector {}".format(sector_name)
# sector_df = daily_results_df[ daily_results_df['sector_name'] == sector_name ]
# result_df = tgt_fits(sector_df, horizon, sector_name, middate)
# results.append(result_df)
# result_df = pd.concat(results, verify_integrity=True)
# result_df = tgt_fits(daily_results_df, horizon, "", middate)
# daily_results_df = daily_results_df[ daily_results_df['det_diff'] > 0]
# results = list()
# sector_name = 'Energy'
# print "Running tgt for sector {}".format(sector_name)
# sector_df = daily_results_df[ daily_results_df['sector_name'] == sector_name ]
# res1 = tgt_fits( sector_df[ sector_df['det_diff'] > 0 ], horizon, "energy_up", middate)
# res2 = tgt_fits( sector_df[ sector_df['det_diff'] < 0 ], horizon, "energy_dn", middate)
# results.append(res1)
# results.append(res2)
# print "Running tgt for not sector {}".format(sector_name)
# sector_df = daily_results_df[ daily_results_df['sector_name'] != sector_name ]
# res1 = tgt_fits( sector_df[ sector_df['det_diff'] > 0 ], horizon, "rest_up", middate)
# results.append(res1)
# results.append(res2)
# result_df = pd.concat(results, verify_integrity=True)
# intercept_d = get_intercept(daily_results_df, horizon, 'tgt0_ma', middate)
if fit:
forwards_df = calc_forward_returns(daily_df, horizon)
daily_results_df = pd.concat( [daily_results_df, forwards_df], axis=1)
generate_coefs( daily_results_df, horizon, coeffile)
return
else:
res1 = tgt_alpha( daily_results_df, horizon, coeffile)
res1['tgt'].describe()
# res2 = tgt_fits( daily_results_df[ daily_results_df['det_diff'] < 0 ], horizon, "dn", middate, intercept_d)
result_df = pd.concat([res1], verify_integrity=True)
return result_df
if __name__=="__main__":
parser = argparse.ArgumentParser(description='G')
parser.add_argument("--asof",action="store",dest="asof",default=None)
parser.add_argument("--inputfile",action="store",dest="inputfile",default=None)
parser.add_argument("--outputfile",action="store",dest="outputfile",default=None)
parser.add_argument("--logfile",action="store",dest="logfile",default=None)
parser.add_argument("--coeffile",action="store",dest="coeffile",default=None)
parser.add_argument("--fit",action="store",dest="fit",default=False)
args = parser.parse_args()
horizon = int(15)
end = datetime.strptime(args.asof, "%Y%m%d")
if args.fit:
print "Fitting..."
coeffile = args.coeffile + "/" + args.asof + ".tgt.csv"
lookback = timedelta(days=720)
start = end - lookback
uni_df = get_uni(start, end, 30)
else:
print "Not fitting..."
coeffile = args.coeffile
lookback = timedelta(days=horizon+5)
start = end - lookback
uni_df = load_live_file(args.inputfile)
end = datetime.strptime(args.asof + '_' + uni_df['time'].min(), '%Y%m%d_%H:%M:%S')
print "Running between {} and {}".format(start, end)
BARRA_COLS = ['ind1', 'pbeta']
barra_df = load_barra(uni_df, start, end, BARRA_COLS)
PRICE_COLS = ['close']
price_df = load_prices(uni_df, start, end, PRICE_COLS)
daily_df = merge_barra_data(price_df, barra_df)
analyst_df = load_target_hist(price_df[['ticker']], start, end)
daily_df = merge_daily_calcs(analyst_df, daily_df)
daily_df['prc'] = daily_df['close']
if not args.fit:
lastday = daily_df['gdate'].max()
daily_df.ix[ daily_df['gdate'] == lastday, 'prc'] = daily_df['close_i']
result_df = calc_tgt_forecast(daily_df, horizon, coeffile, args.fit)
if not args.fit:
print result_df.head()
dump_prod_alpha(result_df, 'tgt', args.outputfile)