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finplan/bills.py

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Python
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from db import set_bill_type_growth, new_bill
from defines import END_YEAR
import datetime
from datetime import date, timedelta
################################################################################
# this finds start and end dates of a quarter for a given date
################################################################################
def quarter_bounds(d):
q = (d.month-1)//3
start = date(d.year, 3*q+1, 1)
# last day of quarter = first day of next quarter minus 1 day
if q == 3:
next_start = date(d.year+1, 1, 1)
else:
next_start = date(d.year, 3*q+4, 1)
end = next_start - timedelta(days=1)
return start, end
################################################################################
# takes a bill and its previous bill, works out days between and adds cost / day
# to each quarter the bill covers from prev. to now. Usually means it splits
# one bill in a previous and this qtr (or just puts it all into the current qtr)
################################################################################
def allocate_by_quarter( bill_info, bill_type, yr, prev_bill, bill):
start = date( int(prev_bill['bill_date'][:4]), int(prev_bill['bill_date'][5:7]), int(prev_bill['bill_date'][8:]))
end = date( int(bill['bill_date'][:4]), int(bill['bill_date'][5:7]), int(bill['bill_date'][8:]))
time_difference = end - start
days = time_difference.days
cost_per_day = bill['amount']/days
if end < start:
return {}
if not 'qtr' in bill_info[bill_type]:
bill_info[bill_type]['qtr'] = {}
q_start, q_end = quarter_bounds(start)
cur = q_start
# walk quarters that might overlap - start from the quarter of `start`, iterate until past `end`
while cur <= end:
q_start, q_end = quarter_bounds(cur)
overlap_start = max(start, q_start)
overlap_end = min(end, q_end)
# only add qtr total for yr being calc'd
if overlap_end >= overlap_start:
days = (overlap_end - overlap_start).days + 1
q = (q_start.month-1)//3 + 1
# initialise arrays if needed
if q_start.year not in bill_info[bill_type]['qtr']:
bill_info[bill_type]['qtr'][q_start.year] = {}
for i in range(1,5):
bill_info[bill_type]['qtr'][q_start.year][i]=0
if q not in bill_info[bill_type]['qtr'][q_start.year]:
bill_info[bill_type]['qtr'][q_start.year][q]=0
bill_info[bill_type]['qtr'][q_start.year][q] += days*cost_per_day
# next quarter
cur = q_end + timedelta(days=1)
return
################################################################################
# given a bill date in format YYYY-MM-DD, return quarter (1-4)
################################################################################
def qtr(d):
m = int(d[5:7])
return ( (m-1)//3 + 1 )
################################################################################
# find the bill just after the date given
################################################################################
def find_next_bill( bill_type, bill_info, bill_date ):
wanted_year = int(bill_date[:4])
wanted_mm = int(bill_date[5:7])
# if we want a bill after our last year, just return None
if int(wanted_year) > int(bill_info[bill_type]['last_bill_year']):
return None
for yr in range( wanted_year, bill_info[bill_type]['last_bill_year']+1 ):
# start with bills in the year wanted (if any)
if yr in bill_info[bill_type]['year']:
# reverse this list so we can q1 bills before q4
for bill in bill_info[bill_type]['year'][yr][::-1]:
bill_mm = int(bill['bill_date'][5:7])
# if bill is in this year but later OR its a later year, return this bill
if (wanted_year == yr and bill_mm > wanted_mm) or wanted_year < yr:
return bill
# failsafe
return None
# find the bill just before the date given
def find_previous_bill( bill_type, bill_info, bill_date ):
wanted_year = int(bill_date[:4])
wanted_mm = int(bill_date[5:7])
# if we don't have a bill before this date, no way to set price
if int(wanted_year) < int(bill_info[bill_type]['first_bill_year']):
return None
# start loop from bill_date, go backwards and find which one it is (same year, should be month-based)
# earlier year, then just last one from the year.
yr_range=range( wanted_year, bill_info[bill_type]['first_bill_year']-1, -1 )
if wanted_year == int(bill_info[bill_type]['first_bill_year']):
# range of this year with -1, does not return anything, so force this year.
yr_range=[ wanted_year ]
for yr in yr_range:
# start with bills in the year wanted (if any)
# must include 'estimated' bills to deal with growth of future years
if yr in bill_info[bill_type]['year']:
# okay, we have the previous billing year, and we wanted one for a year in the future,
# just return the last one in this year as its the most recent
if wanted_year > yr:
# small chance of future bills having estimates and reals (kayo did this)
for tmp in bill_info[bill_type]['year'][yr]:
if tmp['estimated'] == 0:
return tmp
return bill_info[bill_type]['year'][yr][0]
else:
# lets go through the newest to oldest of these bills
for bill in bill_info[bill_type]['year'][yr]:
bill_mm = int(bill['bill_date'][5:7])
# reversing the bills, means we start with the 'most recent' in this year to the oldest
# if the month we want is after the bill, we are done
if wanted_mm > bill_mm:
return bill
return None
# quick wrapper to add a new estimated bill - new estimates have the flag in
# the DB set, but also we update bill_info to reflect the new bill so future
# growth can build of this esimate too - e.g 2030 can use 2029, etc
def new_estimated_bill( bill_info, yr, bill_type, amt, new_date ):
# add to DB
new_bill( bill_type, amt, new_date, 1 )
# patch this data back into bill_info so growth works in future
if not yr in bill_info[bill_type]['year']:
bill_info[bill_type]['year'][yr]=[]
bill={}
bill['bill_date']=new_date
bill['amount']=amt
bill['estimated']=1
# need to insert(0,) to add this "newest" bill to start of the data for {yr} so that find_previous_bill can work - only need the above 3 fields
bill_info[bill_type]['year'][yr].insert(0,bill)
if bill_info[bill_type]['num_ann_bills'] == 4:
q = qtr( new_date )
# new bill in this qtr of this year, so set arrays up
if yr not in bill_info[bill_type]['qtr']:
bill_info[bill_type]['qtr'][yr]={}
pb = find_previous_bill( bill_type, bill_info, new_date )
if pb['estimated'] == 0:
allocate_by_quarter( bill_info, bill_type, yr, pb, bill )
else:
if not q in bill_info[bill_type]['qtr'][yr]:
# first in this year, just init it...
bill_info[bill_type]['qtr'][yr][q]=0
bill_info[bill_type]['qtr'][yr][q]+=amt
return
# missing annual bill, find date based on MM-DD and add new year - given we start with first_bill anyway, will only be used for future bill predictions
# future only, so add ann_growth (based on drop-down) for each future year
# NOTE: only ever called when there is a need to add a new bill
def add_missing_annual_bill_in_yr( bill_type, bill_info, yr ):
mm_dd = bill_info[bill_type]['last_bill']['bill_date'][5:]
new_date= f'{yr}-{mm_dd}'
pb=find_previous_bill( bill_type, bill_info, new_date )
if pb:
amt = pb['amount']
else:
amt = bill_info[bill_type]['last_bill']['amount']
# okay the missing bill is before the first bill...
amt += amt * bill_info[bill_type]['growth']/100
new_estimated_bill( bill_info, yr, bill_type, amt, new_date )
return
# missing quarterly bill, find date based on MM-DD and ??? - can have missing bilsl in first year
# add growth (based on drop-down) for each future year
def add_missing_quarter_bills_in_yr( bill_type, bill_info, yr ):
# okay we have data for last year but some missing (in this year), lets fill in gaps
# could be called if only have data for q2 - q4 in first year and we dont have a previous years q1 data so don't try
if 'qtr' in bill_info[bill_type] and yr-1 in bill_info[bill_type]['qtr']:
# if we do have data in this year, we have q1-q3 only, and want missing qtrs set range appropriately...
if yr in bill_info[bill_type]['qtr']:
# per if above, ONLY get here if we have first few bills of {yr}, cannot be last few
have_q = qtr( bill_info[bill_type]['year'][yr][0]['bill_date'] )
r=range(have_q+1,5)
else:
r=range(1,5)
for q in r:
if 'forced' in bill_info[bill_type]['freq']:
actually_add_estimated_new_quarter_bill_forced(bill_type, bill_info, yr, q)
else:
actually_add_estimated_new_quarter_bill(bill_type, bill_info, yr, q)
return
################################################################################
# func take a qtr in a year, finds equiv from previous year, calcs new based on
# it (same 'day' with amt * growth)
################################################################################
def actually_add_estimated_new_quarter_bill( bill_type, bill_info, yr, q ):
# amt is total of last year's qtr bill (NOTE: use 4-q, bills are in desc order)
last_yrs_bill_in_this_q = bill_info[bill_type]['year'][yr-1][4-q]
amt = last_yrs_bill_in_this_q['amount']*(1+bill_info[bill_type]['growth']/100)
# make new qtr bill same 'day' (mm-dd) as last year, just chg (yr)
mmdd=last_yrs_bill_in_this_q['bill_date'][5:]
new_date = f'{yr}-{mmdd}'
new_estimated_bill( bill_info, yr, bill_type, amt, new_date )
return
def actually_add_estimated_new_quarter_bill_forced( bill_type, bill_info, yr, q ):
print( f"Being asked to add a FORCED qtr bill for {yr}-q{q} - likely a GAS bill, as its the only one, *sigh*" )
last_yrs_qtr_amount = bill_info[bill_type]['qtr'][yr-1][q]
print( f"amt is based on forced qtr amount for last year: {last_yrs_qtr_amount}" )
amt=last_yrs_qtr_amount*(1+bill_info[bill_type]['growth']/100)
new_date = f'{yr}-{q*3:02d}-01'
new_estimated_bill( bill_info, yr, bill_type, amt, new_date )
return
# missing monthly bills, find date based on DD and put in each missing month
# add growth (based on drop-down) for each future year
# NOTE: ALWAYS called for first year - don't always add bills/see below
def add_missing_monthly_bills_in_yr( bill_type, bill_info, yr ):
# start date arithmetic from first bill (this is possibly an issue if monthly is not
# really perfectly the same each month, but its only for an estimate so should be ok
dd = bill_info[bill_type]['first_bill']['bill_date'][8:]
mm = bill_info[bill_type]['first_bill']['bill_date'][5:7]
lb_mm = bill_info[bill_type]['last_bill']['bill_date'][5:7]
#okay add monthly bills for the rest of this year if its the first year
if bill_info[bill_type]['first_bill_year'] == yr:
start_m=int(mm)
else:
start_m=0
# fill in rest of this year
for i in range( start_m+1, 13 ):
bill_found=False
new_date = f'{yr}-{i:02d}-{dd}'
new_date_yymm=f'{yr}-{i:02d}'
if yr in bill_info[bill_type]['year']:
for b in bill_info[bill_type]['year'][yr]:
# this bill exists, skip adding it (this occurs when called to
# add bills as there are < 12 bills in first_year, BUT, we
# don't fill before first_bill so the < 12 ALWAYS triggers
if new_date_yymm in str(b['bill_date']):
bill_found=True
break
if not bill_found:
pb=find_previous_bill( bill_type, bill_info, new_date )
nb=find_next_bill( bill_type, bill_info, new_date )
if not pb:
print("Failed to find previous_bill, can't calculate missing bill - returning" )
return
amt = pb['amount']
# if there is no next bill then use growth, otherwise, I am only putting in real bills
# where changes occur, so keep the pb amount 'unchanged'
if not nb:
# if this month is the same as the last bill month and as per above
# we don't have a bill for this date, then add annual grotwh
if i == int(lb_mm):
amt += amt * bill_info[bill_type]['growth']/100
bill_info[bill_type]['last_bill_amount']=amt
new_estimated_bill( bill_info, yr, bill_type, amt, new_date )
return
# given the bill_type has a which_growth contain min/avg/max, return the corresponding growth number
def get_growth_value( bt, bill_type ):
for el in bt:
if el['id'] == bill_type:
which = el['which_growth']
break
if which == 'avg':
return el['ann_growth_avg']
elif which == 'min':
return el['ann_growth_min']
elif which == 'simple':
return el['ann_growth_simple']
else:
return el['ann_growth_max']
################################################################################
# go through the bill data from the DB, put it into more friendly formats, then
# work out and then add missing bill data (might be b/c we have monthly bills,
# and I didn't want to input 12 of them at the same price), and it always
# occurs for future bills
################################################################################
def process_bill_data(bd, bt, bf):
# this maps a bill id to a freq id (e.g. bill #34 - has a frequency of #2 (which might be quarterly)
bt_id_freq = {row["id"]: row["freq"] for row in bt}
bt_id_ann_growth_avg = {row["id"]: row["ann_growth_avg"] for row in bt}
# this maps freq to bills per annum (e.g. id=2 to 4 bills per annum)
bf_id_num = {row["id"]: row["num_bills_per_annum"] for row in bf}
# and allows me a way to see if the bill is quarterly but also fixed or seasonal
bf_id_name = {row["id"]: row["name"] for row in bf}
# want to proces all bill data into easier to maniuplate structure, so make
# a bill_info[bill_id] with first_bill, last_bill, [yr] with matching bills to process
bill_info={}
for bill in bd:
bill_type = bill['bill_type_id']
yr= int(bill['bill_date'][:4])
# new bill type
if not bill_type in bill_info:
bill_info[bill_type]={}
bill_info[bill_type]['freq'] = bf_id_name[bt_id_freq[bill_type]]
bill_info[bill_type]['growth'] = get_growth_value( bt, bill_type )
bill_info[bill_type]['num_ann_bills'] = bf_id_num[bt_id_freq[bill_type]]
bill_info[bill_type]['first_bill']={}
bill_info[bill_type]['last_bill']={}
# due to sql sorting, this first instance is the last bill
bill_info[bill_type]['last_bill']=bill
bill_info[bill_type]['last_bill_year']=int(bill['bill_date'][:4])
if not bill['estimated']:
bill_info[bill_type]['last_real_bill_year']=int(bill['bill_date'][:4])
bill_info[bill_type]['year']={}
if not yr in bill_info[bill_type]['year']:
bill_info[bill_type]['year'][yr]=[]
# keep updating last to this matching bill
bill_info[bill_type]['first_bill']=bill
bill_info[bill_type]['first_bill_year']=int(bill['bill_date'][:4])
if not 'last_real_bill_year' in bill_info[bill_type] and not bill['estimated']:
bill_info[bill_type]['last_real_bill_year']=int(bill['bill_date'][:4])
# append this bill to list for this year
bill_info[bill_type]['year'][yr].append(bill)
# now process the bill_info from yr of first bill to yr of last bill
for bill_type in bill_info:
# find freq id based on bill_type id, then use that to find num bills by freq id
num = bf_id_num[bt_id_freq[bill_type]]
if 'last_bill' not in bill_info[bill_type]:
print("Cannot process bill_type={bill_type} - no bill info for it at all" )
# range of years to process (yr_min to yr_max)
yr_min=int(bill_info[bill_type]['first_bill']['bill_date'][:4])
yr_max=int(bill_info[bill_type]['last_bill']['bill_date'][:4])
ProportionQtrlyData( bill_type, bill_info )
# go from first_bill year until reach end year
for yr in range( yr_min, END_YEAR+1 ):
# we have all the bills needed for yr - but dont be cute with qtrly, gas bills suck can have missing with 4 bills
# > can occur when we add a real bill "on top of" an estimate.
if yr in bill_info[bill_type]['year'] and len(bill_info[bill_type]['year'][yr]) >= bill_info[bill_type]['num_ann_bills'] and bill_info[bill_type]['num_ann_bills'] !=4:
continue
add_missing_bills_for_yr( bill_type, bill_info, yr )
derive_ann_growth( bill_type, bill_info )
return bill_info
################################################################################
# add_missing_bills_for_yr -- wrapper to call right func based on bill freq
################################################################################
def add_missing_bills_for_yr( bill_type, bill_info, yr ):
num = bill_info[bill_type]['num_ann_bills']
if num == 1:
add_missing_annual_bill_in_yr( bill_type, bill_info, yr )
elif num == 4:
add_missing_quarter_bills_in_yr( bill_type, bill_info, yr )
elif num == 12:
add_missing_monthly_bills_in_yr( bill_type, bill_info, yr )
return
################################################################################
# Takes qtrly bills and start from 2nd year of bills (so we can estimate growth)
# and go through each bill allocating the proportion of each bill to each
# relevant quarter - to build more accurate totals. Would be mostly marginal
# accept when Gas qtrly bills have 6 per year, and we need to guess say qtr4 in
# the future, we can't easily find corresponding bill form previous year, so
# this allows us to aggregate per quarter and use matching quarter
################################################################################
def ProportionQtrlyData( bill_type, bill_info ):
# just do up to now for the moment so that add_missing_bills later will have qtr data to use
now_yr = datetime.date.today().year
# FIX UP CRAPPY QUARTERLY BILLING PROPORTIONS (only useful as some gas bills are 6 / year!)
if bill_info[bill_type]['num_ann_bills']==4:
for yr in range( bill_info[bill_type]['first_bill_year'], END_YEAR+1):
if yr in bill_info[bill_type]['year']:
for b in bill_info[bill_type]['year'][yr]:
pb = find_previous_bill( bill_type, bill_info, b['bill_date'] )
if not pb:
continue
allocate_by_quarter( bill_info, bill_type, yr, pb, b )
return
################################################################################
# function to work out totals per year, and then calcuates annual growth in
# terms of min/avg/max - uses qtr data for qtrly bills, or just normal totals
# for other bill types
################################################################################
def derive_ann_growth( bill_type, bill_info ):
# just do up to now so we stop earlier than looking at other estimated (just an optimisation)
now_yr = datetime.date.today().year
total={}
for yr in range( bill_info[bill_type]['first_bill_year'], now_yr+1):
# if not enough bills in this year (or none), then try next year (first year might have not enough bills)
if yr not in bill_info[bill_type]['year'] or len(bill_info[bill_type]['year'][yr]) < bill_info[bill_type]['num_ann_bills']:
continue;
# just going to make sure we dont use estimated data in the last year of real data - can skew growths
if yr == bill_info[bill_type]['last_real_bill_year'] or bill_info[bill_type]['num_ann_bills'] ==1:
skip_yr=False
for b in bill_info[bill_type]['year'][yr]:
if b['estimated']:
skip_yr=True
if skip_yr:
continue
total[yr] = 0
for b in bill_info[bill_type]['year'][yr]:
total[yr] += b['amount']
# crazily we can have more bills in this year than expected, so work out qtrly costs, and patch that back into total array
for yr in range( bill_info[bill_type]['first_bill_year'], now_yr+1):
if 'qtr' in bill_info[bill_type] and yr in bill_info[bill_type]['qtr']:
tot=0
for q in range( 1,5 ):
tot += bill_info[bill_type]['qtr'][yr][q]
if yr in total:
# use new derived qtr, slightly more accurate
total[yr]=tot
# once we have all yr totals:
growth = {}
min_growth = 999
avg_growth = 0
max_growth = 0
count = 0
simple_first_yr=0
simple_last_yr=0
# start from year after first bill, so we can see annual growth from the following year onwards
for yr in range( bill_info[bill_type]['first_bill_year']+1, now_yr+1):
# if full data sets for consecutive years, work out annual growth stats
if yr-1 in total and yr in total:
if simple_first_yr==0:
simple_first_yr=yr
growth = (total[yr] - total[yr-1]) / total[yr-1] * 100
avg_growth += growth
count += 1
simple_last_yr=yr
if growth < min_growth:
min_growth = growth
if growth > max_growth:
max_growth = growth
# data to work with
if count:
# strt with 0, set it if we can below
simple_growth=0
if simple_first_yr != simple_last_yr:
# calculate a simple growth with full year consecutive totals -> last - first / years
simple_growth=( ((total[simple_last_yr]-total[simple_first_yr])/(simple_last_yr-simple_first_yr)) / total[simple_first_yr] )*100.0
else:
# calculate a simple growth based on last - first / years - only 1 consecutive year I guess, so can't use it, use real first/last
if bill_info[bill_type]['first_bill_year'] != bill_info[bill_type]['last_real_bill_year'] and bill_info[bill_type]['first_bill_year'] in total and bill_info[bill_type]['last_real_bill_year'] in total:
simple_growth=( ((total[bill_info[bill_type]['last_real_bill_year']]-total[bill_info[bill_type]['first_bill_year']])/(bill_info[bill_type]['last_real_bill_year']-bill_info[bill_type]['first_bill_year'])) / total[bill_info[bill_type]['first_bill_year']] )*100.0
set_bill_type_growth( bill_type, min_growth, avg_growth/count, max_growth, simple_growth )
else:
# okay use last - first / years to get a simple_growth, just need bills from different years
# if there are totals for them (may not be set with monthly and < 12 bills in 1st year)
if 'last_real_bill_year' in bill_info[bill_type] and bill_info[bill_type]['first_bill_year'] != bill_info[bill_type]['last_real_bill_year'] and bill_info[bill_type]['first_bill_year'] in total and bill_info[bill_type]['last_real_bill_year'] in total:
simple_growth=( ((total[bill_info[bill_type]['last_real_bill_year']]-total[bill_info[bill_type]['first_bill_year']])/(bill_info[bill_type]['last_real_bill_year']-bill_info[bill_type]['first_bill_year'])) / total[bill_info[bill_type]['first_bill_year']] )*100.0
set_bill_type_growth( bill_type, 0, 0, 0, simple_growth )
else:
# failsafe (just in case fill bills failed to add enough bills to average out)
print( f"{bill_type}: Unable to calculate growth!" )
################################################################################
# just go through this year to END_YEAR, total any bills for each year up
# so we can display the annual estimated bills onwards...
################################################################################
def calc_future_totals(bill_info, bill_types):
total={}
now_yr = datetime.date.today().year
for bt in bill_types:
total[bt['id']]={}
for yr in range( now_yr, END_YEAR+1):
total[bt['id']][yr]=0.0
if bt['id'] in bill_info and yr in bill_info[bt['id']]['year']:
for b in bill_info[bt['id']]['year'][yr]:
total[bt['id']][yr] += b['amount']
# had to round to 2 decimal here to get sensible totals
total[bt['id']][yr] = round( total[bt['id']][yr], 2 )
return total
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