gnucash/libgnucash/doc/budget.txt

226 lines
12 KiB
Plaintext
Raw Normal View History

/** \page budgetplan Some Thoughts about GnuCash Budgeting
API: \ref Budget
Bob Drzyzgula
18-April-1998
\section budgetabstract Abstract
At this point, this document contains my personal thoughts about possible
design criteria for a budgeting engine in GnuCash. These should not
2017-01-16 16:03:50 -06:00
at this writing be taken as consensus opinion, and may in places be
at odds with conventions inside GnuCash code (and with general accounting
principals... I am in no way an accountant), and thus may not be practical.
2017-01-16 16:03:50 -06:00
However, I believe that they provide a self-consistent view of how
one might do this, and I hope that this document will serve to continue
the discussion that began on the GnuCash/Xacc mailing list.
\section bugettoc tableofcontents
\subsection budgetdefines Definitions
As with any design paper, we'll need a few definitions. I'll try to
stick as close to possible to the Xacc usage of these terms, but I'm
not intimately familiar with the code, so I may have made some errors
here.
- Journal A journal is a simply a list of transactions with minimal
characterization. For the purposes of this paper, the journal is
defined to include only transactions that have already occurred,
i.e., expected or up-coming expenses would not appear in the journal.
- Calendar For the purposes of this paper, the calendar as a list of
fully-defined future transactions, organized by date. A transaction
would only appear in the calendar if there was a low likelihood
that it would change. Future transactions that would only change
by surprise (e.g. the cable TV bill) could appear in the calendar,
but utility bills such as from the natural gas company would appear
in the calendar only after receipt.
- Template A template is in effect a partially defined transaction,
possibly containing constraints. For example, one might have a template
that would identify the price, payee, description, asset account
and expense account (but not the date) for buying a Value Meal #4
at the corner McDonald's, so every time you get the Value Meal #4
you could pull it out of a GUI pick list and just specify the date.
Alternatively, one could have a template that specified much of
the data for the natural gas bill but not the amount, so that (a)
entering the transaction when the bill came could be simplified,
and (b) the partial information could be recorded, in effect as
a reminder. A template could include such information as a confidence
interval, so that, for example, if you and your family go out to
dinner every Friday night and it usually costs $20-50, you could
create a template that had $35 +/- $15 as the amount. Such templates
could be extremely useful in making projections. Quicken, of course,
has similar things called ``memorized transactions,'' but Quicken
gives less control over their creation, meaning and use.
- Schedule The schedule is a supplement to the calendar that contains
only dated references to templates, which could be further narrowed
as part of the reference, e.g. an undated template could be given
a date but not a firm value when referenced from the schedule.
- Ledger The ledger is in effect documentation of the journal, in that
it describes the meaning of the transactions with respect to the
balances in the various accounts. In Xacc, this appears also to
be known as the register. It isn't clear to me that Xacc maintans
the journal and the ledger separately. The ledger could easily be
expanded to include documentation of the calendar transactions,
but it is less clear that one would want to include the template
references from the schedule directly in the ledger; it may make
more sense for the schedule to be a ledger unto itself.
- Budget A budget is an allocation of monetary flows. As funds enter
the system through the income accounts, they must be transferred
to other accounts; a direct deposit would be a transfer to an asset
account, a loan payment through payroll deduction a transfer to
a liability account, and tax withholding a transfer to an expense
account. Of course, secondary transfers - check payments to credit
card accounts, for example - are expected. The budget must cover
a certain time period; one year is typical but not necessary. Typically
one begins with the expected income over the budget period and describes
what is expected to become of the money. In addition, it is typically
the case that one will begin a budget period with initial assets
and liabilities, that assets may be transferred to expense and liability
accounts, and that new liabilities may be created as a way to obtain
additional assets or cover expenses. It is not necessary and is
in fact (in my view) undesirable for the budget to make specific
reference to any transactions or templates; it is not even necessary
to describe the precise path of the funds through accounts. Thus,
while the budget documents one's goals for where the funds wind
up, the schedule, calendar, journal and ledger describe the actual
mechanics of the process. Finally, it should be noted that, in addition
to describing the endpoints of the budget period, one typically
will set a certain checkpoint frequency in the budget so that (a)
the time dependence of the various flows is more obvious, and (b)
one can conduct periodic verification of the accounts' status with
respect to the budget. Most often this checkpoint frequency is either
monthly or per-four-weeks. The former might be referred to as ``budgeting
on a monthly basis.''
\subsection budgetdocs Documenting the Budget
2017-01-16 16:03:50 -06:00
One possible way to document a budget might be as a classic ``input-output
table''. Consider the following table:
\verbatim
+---------+----------+---------+-----+------+------+-----+------+------+
| | Checking | Savings | MMA | Cash | Visa | Tax | Food | Rent |
+---------+----------+---------+-----+------+------+-----+------+------+
+---------+----------+---------+-----+------+------+-----+------+------+
|Checking | x | 3 | 2 | 7 | 3 | | | 5 |
+---------+----------+---------+-----+------+------+-----+------+------+
|Savings | | x | 1 | | | | | |
+---------+----------+---------+-----+------+------+-----+------+------+
| MMA | | | x | | | | | |
+---------+----------+---------+-----+------+------+-----+------+------+
| Cash | | | | x | | | 6 | |
+---------+----------+---------+-----+------+------+-----+------+------+
| Visa | | | | 8 | x | | 7 | |
+---------+----------+---------+-----+------+------+-----+------+------+
|Paycheck | 20 | | | | | 5 | | |
+---------+----------+---------+-----+------+------+-----+------+------+
|Interest | | 2 | 3 | | | | | |
+---------+----------+---------+-----+------+------+-----+------+------+
\endverbatim
The first five data columns and the first five data rows have the same
names. These are the asset and liability accounts. The last three
columns are the expense accounts, and the last two rows are the income
accounts (When I learn a little more SGML I'll try to make the table
a little more readable). Notice:
- If you sum across the income rows, you obtain the total income for
each account: $25 from paychecks and $5 from interest, for a total
of $30. If you sum down the expense rows, you obtain the total expenses
for each account: $5 for taxes, $13 for food, and $5 for rent (OK,
so we eat a lot). Just looking at these two figures, we can immediately
see that we expect to make $30 and spend $23 of it.
- The sense of each amount is positive from the row account to the
column account. Thus, $20 of pay is direct-deposited to the checking
account, and the remaining $5 is withheld for taxes. $1 is transferred
from the savings account to the money market account. We plan to
use the Visa card to buy $7 worth of food and to take a $8 cash
advance. We also plan to pay Visa bills totalling $3 from the checking
account.
- If you sum down an asset/liability column, you will obtain the total
amount we expect to add to that account (e.g. $6 added to the MMA,
$20 added to checking, $3 to Visa). If you sum across an asset/liability
row, you will obtain the total amount we expect to remove from that
account (e.g. none from the MMA, $20 from checking, $15 from Visa).
Thus, if you subtract the row sum from the column sum for a single
asset or liability account, you may obtain the planned net change
in that account for the budget period. Thus, we expect checking
to be a wash, the MMA to grow by $6, and to go $12 further in the
hole on our Visa card.
- Again, what is documented here is the planned account-to-account
flow across the entire period, not individual transactions.
\subsection budgetcontrib Contributing Data
(to be done)
================================================================
Where I'm headed for the rest of it is this:
- I expect to point out that the Journal, Calendar and
Ledger as I have described them are only tangentially
related to the budget. They are the emperical data and
the Budget and the Schedule are the models. The goal
would be to have an engine that would allow one to
measure the deviation of the emperical data from
the model in various ways.
- I expect to talk about the task of generating both
the schedule and the budget. When one prepares this
stuff, one usually has a rather diverse collection of
data to work with. Bi-weekly paychecks, monthly
interest income, quarterly dividends, five-day-per-week
lunch charges, etc. What I would very much like to do
is describe a mechanism whereby one could simply enter
all these kinds of data into the engine, and it will
digest it all into the budget and/or schedule formats.
I expect to do this by preparing projected transactions
as "templates", and then specifying a time series of
instantiations of the templates.
- I expect to describe a design for a sort of OO
time series engine, where "time series" is a class.
Instances of "time series" will have begin dates,
end dates, frequencies, and the data series itself.
Time series arithmetic will be defined, and these may
entail frequency conversions to force the operand series
to commensurate frequencies before combination. Thus,
explicit conversion functions, say "monthly_to_daily"
will need to be defined.
- Once these pieces are in place, then one should be
able to use the time series engine to digest the
scraps of paper with scribbles saying "Katie's lunch,
$2.30 every Monday through Thursday except only
$0.40 on Friday because they have burritos on
Friday and she hates them and brings her lunch but
still needs milk" into something usable as a
2017-01-16 16:03:50 -06:00
budget -or- as a schedule (these being two separate
outputs).
- While I expect that such an engine would be extremely
useful for about 80% of the data that would go into
a budget, there will of course be other data for which
this would be overkill or cumbersome. Like "$85 each
February and October for spraying the hemlocks with
dormant oil". I can't imagine that anyone would rather
make up some bogus time series for this than to open
up a spreadsheet and type in two numbers, or even
add a couple of records to an input data file. Thus, there
should be some mechanism for this, where hand-entered
data can be merged into the final budget or schedule.
it should not, however, be implemented as hand edits to the
draft table coming out of the time series engine,
because one will want to be able to iterate on this.
- Nonetheless, it probably remains true that users
would wish to take the final budget output of all this
automated stuff, and hack it up into something
that somehow pleases them better. Thus it probably
*does* make sense to allow hand edits at the final
stage, and/or to simply enter an entire budget by
hand if that is what you want to do.
- So far, I don't see any simple way to implement
something like Quicken's SuperCategories. Maybe this
is related to why it works so poorly in Quicken. :-)
*/