Break hist calc into wap func, use hlc3.

vwap_fsp
Tyler Goodlet 2020-11-13 12:31:07 -05:00
parent 33515f45cc
commit 7c7b31ebbe
1 changed files with 36 additions and 15 deletions

View File

@ -14,47 +14,68 @@
# You should have received a copy of the GNU Affero General Public License # You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>. # along with this program. If not, see <https://www.gnu.org/licenses/>.
from typing import AsyncIterator from typing import AsyncIterator, Optional
import numpy as np import numpy as np
from ..data._normalize import iterticks from ..data._normalize import iterticks
def wap(
signal: np.ndarray,
weights: np.ndarray,
) -> np.ndarray:
"""Weighted average price from signal and weights.
"""
cum_weights = np.cumsum(weights)
cum_weighted_input = np.cumsum(signal * weights)
return cum_weighted_input / cum_weights, cum_weighted_input, cum_weights
async def _tina_vwap( async def _tina_vwap(
source, #: AsyncStream[np.ndarray], source, #: AsyncStream[np.ndarray],
ohlcv: np.ndarray, # price time-frame "aware" ohlcv: np.ndarray, # price time-frame "aware"
anchors: Optional[np.ndarray] = None,
) -> AsyncIterator[np.ndarray]: # maybe something like like FspStream? ) -> AsyncIterator[np.ndarray]: # maybe something like like FspStream?
"""Streaming volume weighted moving average. """Streaming volume weighted moving average.
Calling this "tina" for now since we're using OHL3 instead of tick. Calling this "tina" for now since we're using HLC3 instead of tick.
""" """
# TODO: anchor to session start if anchors is None:
# TODO:
# anchor to session start of data if possible
pass
a = ohlcv.array a = ohlcv.array
ohl3 = (a['open'] + a['high'] + a['low']) / 3 chl3 = (a['close'] + a['high'] + a['low']) / 3
v = a['volume'] v = a['volume']
cum_v = np.cumsum(v)
cum_weights = np.cumsum(ohl3 * v)
vwap = cum_weights / cum_v h_vwap, cum_wp, cum_v = wap(chl3, v)
# deliver historical output as "first yield" # deliver historical output as "first yield"
yield vwap yield h_vwap
weights_tot = cum_weights[-1] w_tot = cum_wp[-1]
v_tot = cum_v[-1] v_tot = cum_v[-1]
# vwap_tot = h_vwap[-1]
async for quote in source: async for quote in source:
for tick in iterticks(quote, types=['trade']): for tick in iterticks(quote, types=['trade']):
o, h, l, v = ohlcv.array[-1][ # c, h, l, v = ohlcv.array[-1][
['open', 'high', 'low', 'volume'] # ['closes', 'high', 'low', 'volume']
] # ]
v_tot += v
yield ((((o + h + l) / 3) * v) + weights_tot) / v_tot # this computes tick-by-tick weightings from here forward
size = tick['size']
price = tick['price']
v_tot += size
w_tot += price * size
# yield ((((o + h + l) / 3) * v) weights_tot) / v_tot
yield w_tot / v_tot