Beancount-import is a tool for semi-automatically importing financial data from external data sources into the Beancount bookkeeping system, as well as merging and reconciling imported transactions with each other and with existing transactions.
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Pluggable data source architecture, including existing support for OFX (cash, investment, and retirement accounts), Mint.com, Amazon.com, and Venmo.
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Robustly associates imported transactions with the source data, to automatically avoid duplicates.
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Automatically predicts unknown legs of imported transactions based on a learned classifier (currently decision tree-based).
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Sophisticated transaction matching/merging system that can semi-automatically combine and reconcile both manually entered and imported transactions from independent sources.
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Easy-to-use, powerful web-based user interface.
From the data source modules, beancount-import obtains a list of pending
imported transactions. (Balance and price entries may also be provided.)
Depending on the external data source, pending transactions may fully specify
all of the Beancount accounts (e.g. an investment transaction from an OFX source
where shares of a stock are bought using cash in the same investment account),
or may have some postings to unknown accounts, indicated by the special account
name Expenses:FIXME
. For example, pending transactions obtained from bank
account/credit card account data (e.g. using the Mint.com data source) always
have exactly two postings, one to the known Beancount account corresponding to
the bank account from which the data was obtained, and the other to an unknown
account.
For each pending transaction, beancount-import attempts to find matches to both existing transactions and to other pending transactions, and computes a set of candidate merged transactions. For each unknown account posting, Beancount-import predicts the account based on a learned classifier. Through a web interface, the user can view the pending transactions, select the original transaction or one of the merged candidates, and confirm or modify any predicted accounts. The web interface shows the lines in the journal that would be added or removed for each candidate. Once the user accepts a candidate, the candidate is inserted or merged into the Beancount journal, and the user is then presented with the next pending entry.
The imported transactions include metadata fields on the transaction and on the postings that serve several purposes:
- indicating to the data source module which entries in its external representation have already been imported and should not be imported again;
- indicating which postings are cleared, meaning they have been confirmed by the authoritative source, which also constrains matching (a cleared posting can only match an uncleared posting);
- providing necessary information for training the classifier used for predicting unknown accounts;
- providing information to the user that may be helpful for identifying and understanding the transaction.
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Ensure you have activated a suitable Python 3 virtualenv if desired.
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To install the most recent published package from PyPi, simply type:
pip install beancount-import
Alternatively, to install from a clone of the repository, type:
pip install .
or for development:
pip install -e .
To see Beancount-import in action on test data, refer to the instructions in the examples directory.
Data sources are defined by implementing the Source interface defined by the beancount_import.source module.
The data sources provide a way to import and reconcile already-downloaded data. To retrieve financial data automatically, you can use the finance_dl package. You can also use any other mechanism, including manually downloading the data from a financial institution's website, provided that it is in the format required by the data source.
The currently supported set of data sources is:
- beancount_import.source.ofx: most versatile data source, supports checking, savings, credit card, investment, and retirement accounts.
- beancount_import.source.mint: supports all cash account types supported by Mint.com.
- beancount_import.source.venmo
- beancount_import.source.amazon: supports regular and digital order invoices.
- beancount_import.source.healthequity: supports HealthEquity.com HSA accounts, including both cash and investment transactions.
- beancount_import.source.google_purchases: imports purchases from that Google has heuristically extracted from Gmail messages.
- beancount_import.source.paypal: imports Paypal transactions.
- beancount_import.source.waveapps: imports receipts from Wave, a free receipt-scanning website/mobile app.
- beancount_import.source.stockplanconnect: imports release/trade transactions from Morgan Stanley StockPlan Connect.
- beancount_import.source.ultipro_google: imports Google employee Ultipro payroll statements.
Refer to the individual data source documentation for details on configuration.
To run Beancount-import, create a Python script that invokes the
beancount_import.webserver.main
function. Refer to the examples
fresh and
manually_entered.
Any errors either from Beancount itself or one of the data sources are shown in
the Errors
tab. It is usually wise to manually resolve any errors, either
using the built-in editor or an external editor, before proceeding, as some
errors may result in incorrect behavior. Balance errors, however, are generally
safe to ignore.
Select the Candidates
tab to view the current pending imported entry, along
with all proposed matches with existing and other pending transactions. The
original unmatched entry is always listed last, and the proposal that
includes the most matched postings is listed first. The list with checkboxes at
the top indicates which existing or pending transactions are used in each
proposed match; the current pending transaction is always listed first. If many
incorrect matches were found, you can deselect the checkboxes to filter the
matches.
You can select one of the proposed entries by clicking on it, or using the up/down arrow keys. To accept a proposed entry as is, you can press Enter or double click it. This immediately modifies the journal to reflect the change, and also displays the relevant portion of the journal in the Journal tab, so that you may easily make manual edits.
If a proposed entry includes unknown accounts, they are highlighted with a
distinctive background color and labeled with a group number. The account shown
is the one that was automatically predicted, or Expenses:FIXME
if automatic
prediction was not possible (e.g. because of lack of training data). There are
several ways to correct any incorrectly-predicted accounts:
- To change an individual account, you can Shift+click on it, type in the new
account name, and then press Enter. If you press Escape while typing in the
account name, the account will be left unchanged. A fuzzy matching algorithm
is used for autocompletion: if you type "ex:co", for example, it will match
any accounts for which there is a subsequence of 2 components, where the
first starts (case-insensitively) with "ex" and the second starts with "co",
such as an
Expenses:Drinks:Coffee
account. - To change all accounts within a proposed entry that share the same group number, you can click on one of the accounts without holding shift, or press the digit key corresponding to the group number. Once you type in an account and press Enter, the specified account will be substituted for all postings in the group.
- To change all accounts within a proposed entry, you can click the
Change account
button or press thea
key. Once you type in an account and press Enter, the specified account will be substituted for all unknown accounts in the current entry. - If you wish to postpone specifying the correct account, you can click the
Fixme later
button or press thef
key. This will substitute the original unknown account names for all unknown accounts in the current entry. If you then accept this entry, the transaction including these FIXME accounts will be added to your journal, and the next time you start Beancount-import the transaction will be treated as a pending entry.
Data sources may indicate that additional source data is associated with
particular candidate entries, typically based on the metadata fields and/or
links that are included in the transaction. For example, the
beancount_import.source.amazon
data source associates the order invoice HTML
page with the transaction, and the beancount_import.source.google_purchases
data source associates the purchase details HTML page. Other possible source
data types include PDF statements and receipt images.
You can view any associated source data for the currently selected candidate by
selecting the Source data
tab.
To modify the narration of an entry, you can click on it, click the Narration
button, or press the n
key. This actually lets you modify the payee, links,
and tags as well. If you introduce a syntax error in the first line of
transaction, the text box will be highlighted in red and focus will remain until
you either correct it or press Escape, which will revert the first line of the
transaction back to its previous value.
The Uncleared
tab displays the list of postings to accounts for which there is
an authoritative source and which have not been cleared. Normally, postings are
marked as cleared by adding the appropriate source-specific metadata fields that
associate it with the external data representation, such as an ofx_fitid
field
in the case of the OFX source.
This list may be useful for finding discrepancies that need manual correction. Typical causes of uncleared postings include:
- The source data for the posting has not yet been downloaded.
- The transaction is a duplicate of another transaction already in the journal, and needs to be manually merged/deleted.
- The posting is from before the earliest date for which source data was
imported, and no earlier data is available. Such postings can be ignored by
adding a
cleared_before: <date>
metadata field to theopen
directive for the account or one of its ancestor accounts. - The source data is missing or cannot be imported, but the posting was
manually verified. Such postings can be ignored by adding a
cleared: TRUE
metadata field to them.
If you are presented with a pending entry that you don't wish to import, you have several options:
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You can skip past it by selecting a different transaction in the
Pending
tab, or can skip to the next pending entry by clicking on the button labeled⏩
or pressing the]
key. This skips it in the current session, but it remains as a pending entry and will be included again if you restart beancount-import. -
You can click on the button labeled
Fixme later
or press thef
key to reset all unknown accounts, and then accept the candidate. This will add the transaction to your journal, but with the unknown accounts left asExpenses:FIXME
. This is useful for transactions for which you don't know how to assign an account, or which you expect to match to another transaction that will be generated from data that hasn't yet been downloaded. Any transactions in the journal withExpenses:FIXME
accounts will be included at the end of the list of pending entries the next time you start beancount-import. -
You can click on the button labeled
Ignore
or press thei
key to add the selected candidate to the special "ignored" journal file. This is useful for transactions that are erroneous, such as actual duplicates. Entries that are ignored will not be presented again if you restart beancount-import. However, if you manually delete them from the "ignored" journal file, they will return as pending entries.
If you want to run Beancount-import with features like TLS or authentication, then you can run it behind a reverse proxy that provides this functionality. For instance, an NGINX location configuration like the following can route traffic to a local instance of Beancount-import:
location /some/url/prefix/ {
proxy_pass_header Server;
proxy_set_header Host $http_host;
proxy_redirect off;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Scheme $scheme;
proxy_http_version 1.1;
proxy_set_header Upgrade $http_upgrade;
proxy_set_header Connection "Upgrade";
proxy_pass http://localhost:8101/;
}
Replace /some/url/prefix/
with your desired URL path (retaining the trailing
slash), or even just /
to make Beancount-import available at the URL root.
If you start using Beancount-import with an existing beancount journal containing transactions that are also referenced in the external data supplied to a data sources, the data source will not know to skip those transactions, because they will not have the requisite metadata indicating the association. Therefore, they will all be presented to you as new pending imported transactions.
However, the matching mechanism will very likely have determined the correct match to an existing transaction, which will be presented as the default option. Accepting these matches will simply have the effect of inserting the relevant metadata into your journal so that the transactions are considered "cleared" and won't be imported again next time you run Beancount-import. It should be a relatively quick process to do this even for a large number of transactions.
For development of this package, make sure to install Beancount-import using the
pip install -e .
command rather than the pip install .
command. If you
previously ran the pip install
command without the -e
option, you can simply
re-run the pip install -e .
command.
You can run the tests using the pytest
command.
Many of the tests are "golden" tests, which work by creating a textual
representation of some state and comparing it with the contents of a particular
file in the testdata/ directory. If you change one of these tests
or add a new one, you can have the tests automatically generate the output by
setting the environment variable BEANCOUNT_IMPORT_GENERATE_GOLDEN_TESTDATA=1
,
e.g.:
BEANCOUNT_IMPORT_GENERATE_GOLDEN_TESTDATA=1 pytest
Make sure to commit to at least stage any changes you've made to the relevant
testdata
files prior to running the tests with this environment variable set.
That way you can manually verify any changes between the existing output and the
new output using git diff
.
The web frontend source code is in the frontend/ directory. Refer to the README.md file there for how to rebuild and run the frontend after making changes.
Suppose the user has purchased a coffee at Starbucks on 2016-08-09 using a credit card, and has set up Mint.com to retrieve the transaction data for this credit card.
Given the following CSV entry:
"Date","Description","Original Description","Amount","Transaction Type","Category","Account Name","Labels","Notes"
"8/10/2016","Starbucks","STARBUCKS STORE 12345","2.45","debit","Coffee Shops","My Credit Card","",""
and the following open account directive:
1900-01-01 open Liabilities:Credit-Card USD
mint_id: "My Credit Card"
the Mint data source will generate the following pending transaction:
2016-08-10 * "STARBUCKS STORE 12345"
Liabilities:Credit-Card -2.45 USD
date: 2016-08-10
source_desc: "STARBUCKS STORE 12345"
Expenses:FIXME 2.45 USD
The user might manually specify that the unknown account is Expenses:Coffee
.
The web interface will then show the updated changeset:
+2016-08-10 * "STARBUCKS STORE 12345"
+ Liabilities:Credit-Card -2.45 USD
+ date: 2016-08-10
+ source_desc: "STARBUCKS STORE 12345"
+ Expenses:Coffee 2.45 USD
If the Expenses:Coffee
account does not already exist, Beancount-import will
additionally include an open
directive in the changeset:
+2016-08-10 * "STARBUCKS STORE 12345"
+ Liabilities:Credit-Card -2.45 USD
+ date: 2016-08-10
+ source_desc: "STARBUCKS STORE 12345"
+ Expenses:Coffee 2.45 USD
+ 2016-08-10 open Expenses:Coffee USD
Once the user accepts this change, the changeset is applied to the journal. The
presence of the date
and source_desc
metadata fields indicate to the Mint
data source that the Liabilities:Credit-Card
posting is cleared. The
combination of the words in the source_desc
, the source account of
Liabilities:Credit-Card
, and the target account of Expenses:Coffee
serves
as a training example for the classifier. A subsequent pending transaction with
a source_desc
field containing the word STARBUCKS
is likely to be
automatically classified as Expenses:Coffee
. Note that while in this case the
narration matches the source_desc
field, the narration has no effect on the
automatic prediction. The user must not delete or modify these metadata fields,
but additional metadata fields may be added.
Mint.com has its own heuristics for computing the Description
and Category
fields from the Original Description
provided by the financial institution.
However, these are ignored by the Mint data source as they are not stable (can
change if the data is re-downloaded) and not particularly reliable.
Considering the same transaction as shown in the previous example, suppose the user has already manually entered the transaction prior to running the import:
2016-08-09 * "Coffee"
Liabilities:Credit-Card -2.45 USD
Expenses:Coffee
When running Beancount-import, the user will be presented with two candidates:
2016-08-09 * "Coffee"
Liabilities:Credit-Card -2.45 USD
+ date: 2016-08-10
+ source_desc: "STARBUCKS STORE 12345"
Expenses:Coffee
+2016-08-10 * "STARBUCKS STORE 12345"
+ Liabilities:Credit-Card -2.45 USD
+ date: 2016-08-10
+ source_desc: "STARBUCKS STORE 12345"
+ Expenses:FIXME 2.45 USD
The user should select the first one; selecting the second one would yield a
duplicate transaction (but which could later be diagnosed as an uncleared
transaction). The Expenses:FIXME
account in the second candidate would in
general actually be some other, possibly incorrect, predicted account, but which
is clearly indicated as an prediction that can be changed.
As is typically the case, the date on the manually entered transaction (likely
the date on which the transaction actually occurred) is not exactly the same as
the date provided by the bank. To handle this discrepancy, Beancount-import
allows matches between postings that are up to 5 days apart. The date
metadata field allows the posting to be reliably matched to the corresponding
entry in the CSV file, even though the overall transaction date differs.
Note that even though this transaction was manually entered, once it is matched
with the pending transaction and the source_desc
and date
metadata fields
are added, it functions as a training example exactly the same as in the
previous example.
Suppose the user pays the balance of a credit card using a bank account, and Mint.com is set up to retrieve the transactions from both the bank account and the credit card.
Given the following CSV entries:
"Date","Description","Original Description","Amount","Transaction Type","Category","Account Name","Labels","Notes"
"11/27/2013","Transfer from My Checking","CR CARD PAYMENT ALEXANDRIA VA","66.88","credit","Credit Card Payment","My Credit Card","",""
"12/02/2013","National Federal Des","NATIONAL FEDERAL DES:TRNSFR","66.88","debit","Transfer","My Checking","",""
and the following open account directives:
1900-01-01 open Liabilities:Credit-Card USD
mint_id: "My Credit Card"
1900-01-01 open Assets:Checking USD
mint_id: "My Checking"
the Mint data source will generate 2 pending transactions, and for the first one will present two candidates:
+2013-11-27 * "CR CARD PAYMENT ALEXANDRIA VA"
+ Liabilities:Credit-Card 66.88 USD
+ date: 2013-11-27
+ source_desc: "CR CARD PAYMENT ALEXANDRIA VA"
+ Assets:Checking -66.88 USD
+ date: 2013-12-02
+ source_desc: "NATIONAL FEDERAL DES:TRNSFR"
+2013-11-27 * "CR CARD PAYMENT ALEXANDRIA VA"
+ Liabilities:Credit-Card 66.88 USD
+ date: 2013-11-27
+ source_desc: "CR CARD PAYMENT ALEXANDRIA VA"
+ Expenses:FIXME -66.88 USD
Note that the Expenses:FIXME
account in the second transaction will actually
be whichever account was predicted automatically. If there have been prior
similar transactions, it is likely to be correct predicted as Assets:Checking
.
The user should accept the first candidate to import both transactions at once.
In that case, both postings are considered cleared, and the new transaction will
result in two training examples for automatic prediction, corresponding to each
of the two combinations of source_desc
, source account, and target account.
However, if the user accepts the second candidate (perhaps because the
transaction hasn't yet been posted to the checking account and the pending
transaction derived from the checking account data is not yet available), and
either leaves the account as Expenses:FIXME
, manually specifies
Assets:Checking
, or relies on the automatic prediction to choose
Assets:Checking
, then when importing the transaction from the checking
account, the user will be presented with the following candidates and will have
another chance to accept the match:
2013-11-27 * "CR CARD PAYMENT ALEXANDRIA VA"
Liabilities:Credit-Card 66.88 USD
date: 2013-11-27
source_desc: "CR CARD PAYMENT ALEXANDRIA VA"
Assets:Checking -66.88 USD
+ date: 2013-12-02
+ source_desc: "NATIONAL FEDERAL DES:TRNSFR"
+2013-12-02 * "NATIONAL FEDERAL DES:TRNSFR"
+ Assets:Checking -66.88 USD
+ date: 2013-12-02
+ source_desc: "NATIONAL FEDERAL DES:TRNSFR"
+ Expenses:FIXME 66.88 USD
Copyright (C) 2014-2018 Jeremy Maitin-Shepard.
Distributed under the GNU General Public License, Version 2.0 only. See LICENSE file for details.