pypme – Python package for PME (Public Market Equivalent) calculation
Based on the Modified PME method.
Example
from pypme import verbose_xpme
from datetime import date
pmeirr, assetirr, df = verbose_xpme(
dates=[date(2015, 1, 1), date(2015, 6, 12), date(2016, 2, 15)],
cashflows=[-10000, 7500],
prices=[100, 120, 100],
pme_prices=[100, 150, 100],
)
Will return 0.5525698793027238
and 0.19495150355969598
for the IRRs and produce this
dataframe:
Notes:
- The
cashflows
are interpreted from a transaction account that is used to buy from an asset at priceprices
. - The corresponding prices for the PME are
pme_prices
. - The
cashflows
is extended with one element representing the remaining value, that's why all the other lists (dates
,prices
,pme_prices
) need to be exactly 1 element longer thancashflows
.
Variants
-
xpme
: Calculate PME for unevenly spaced / scheduled cashflows and return the PME IRR only. In this case, the IRR is always annual. -
verbose_xpme
: Calculate PME for unevenly spaced / scheduled cashflows and return vebose information. -
pme
: Calculate PME for evenly spaced cashflows and return the PME IRR only. In this case, the IRR is for the underlying period. -
verbose_pme
: Calculate PME for evenly spaced cashflows and return vebose information. -
tessa_xpme
andtessa_verbose_xpme
: Use live price information via the tessa library. See below.
tessa examples – using tessa to retrieve PME prices online
Use tessa_xpme
and tessa_verbose_xpme
to get live prices via the tessa
library and use those prices as the PME. Like so:
from datetime import datetime, timezone
from pypme import tessa_xpme
common_args = {
"dates": [
datetime(2012, 1, 1, tzinfo=timezone.utc),
datetime(2013, 1, 1, tzinfo=timezone.utc)
],
"cashflows": [-100],
"prices": [1, 1],
}
print(tessa_xpme(pme_ticker="LIT", **common_args)) # source will default to "yahoo"
print(tessa_xpme(pme_ticker="bitcoin", pme_source="coingecko", **common_args))
print(tessa_xpme(pme_ticker="SREN.SW", pme_source="yahoo", **common_args))
Note that the dates need to be timezone-aware for these functions.
Garbage in, garbage out
Note that the package will only perform essential sanity checks and otherwise just works with what it gets, also with nonsensical data. E.g.:
from pypme import verbose_pme
pmeirr, assetirr, df = verbose_pme(
cashflows=[-10, 500], prices=[1, 1, 1], pme_prices=[1, 1, 1]
)
Results in this df and IRRs of 0:
Other noteworthy libraries
- tessa: Find financial assets and get their price history without worrying about different APIs or rate limiting.
- strela: A python package for financial alerts.