mirror of
https://github.com/aclindsa/moneygo.git
synced 2024-11-17 03:50:05 -05:00
Aaron Lindsay
f213e1061c
* Import them from Gnucash's pricedb * Add support for querying prices from lua for reports * Add documentation for lua reports
186 lines
7.0 KiB
Markdown
186 lines
7.0 KiB
Markdown
# Lua Reports
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MoneyGo reports are written in [Lua](https://lua.org), as implemented by
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[github.com/yuin/gopher-lua](https://github.com/yuin/gopher-lua), with hooks
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added to query the necessary MoneyGo state to generate the report.
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## An Example: Monthly Cash Flow Report
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Before diving into the details, here's an example report that calculates the
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difference between income and expenses for each month in the current year:
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```
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function generate()
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year = date.now().year
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accounts = get_accounts()
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t = tabulation.new(12)
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t:title(year .. " Monthly Cash Flow")
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series = t:series("Income minus expenses")
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for month=1,12 do
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begin_date = date.new(year, month, 1)
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end_date = date.new(year, month+1, 1)
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t:label(month, tostring(begin_date))
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cash_flow = 0
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for id, acct in pairs(accounts) do
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if acct.type == account.Expense or acct.type == account.Income then
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balance = acct:balance(begin_date, end_date)
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--[[
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Note: We should convert balance.amount to the user's default currency
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before proceeding here
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--]]
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cash_flow = cash_flow - balance.amount
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end
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end
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series:value(month, cash_flow)
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end
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return t
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end
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```
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More examples can be found in the reports/ directory in the MoneyGo source tree.
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## Basic Operation
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The lua code behind a report *must* contain a `generate()` function which takes
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no arguments. This function is called when generating a report, and must return
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a `tabulation` object, created by calling `t = tabulation:new(n)`, where `n` is
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the integer number of data values in each of the series of this tabulation (all
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series in the same tabulation must have the same number of values).
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### Titles and Labels
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Assuming your tabulation object is `t`, you should then call `t.label(m,
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"some_string")` for each value of `m` in `[1, n]` to set the label for the 'm'th
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data element in each series. You do not need to do this before creating series,
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and can do it lazily as you generate data, if needed. Titles, subtitles, and the
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y-axis label (the units) can be set as follows on a tabulation object named `t`:
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* `t.title("The title of my report")`
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* `t.subtitle("The subtitle of my report")`
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* `t.units("USD ($)")`
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### Data Series
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To create a new top-level series, call `s = t:series("series name")` where `t`
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is a tabulation object. Just as for labels for tabulation objects, you set
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`s:value(m, number)` for each value of `m` in `[1, n]` (where `n` is the same
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integer used to create the tabulation object to which this series belongs).
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Nested series can be created by calling `s2 = s:series("nested series name")`,
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where `s` is any already-created series object. Nested series allow for drilling
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down to explore the information in more detail. In the web interface, they are
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clickable and cause the charts to display the selected series as the new top
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level.
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It is assumed that nested series' reported values are not already included in
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their parents' values. When being displayed, all the children series values are
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added into the parent's. This means that a series may have no values of its own,
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but still show up in a chart because it is reporting the sum of its children's
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values.
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## Gathering Data
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Collecting/tabulating the data is up to you (chasing this flexibility was the
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impetus behind Lua reports in the first place).
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### Accounts and Balances
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You can get a table of account objects for each of your accounts (indexed by
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account ID) by calling the global function, `get_accounts()`. Each of these
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accounts has several fields describing it:
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* `a.Name` returns the account's name
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* `a.Description` returns the account's description
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* `a.Type` returns the account's type, as an integer constant. The account type
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constants are available on the top-level 'account' object
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* `account.Bank`
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* `account.Cash`
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* `account.Asset`
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* `account.Liability`
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* `account.Investment`
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* `account.Income`
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* `account.Expense`
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* `account.Trading`
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* `account.Equity`
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* `account.Receivable`
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* `account.Payable`
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* `a.TypeName` returns a string representation of the account's type
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* `a.Security` returns a security object representing the currency, stock, etc.
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of this account.
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* `a.Parent` returns this account's parent account, or nil if the account has no
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parent.
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* `a:Balance` is a function which returns the account balance in the account's
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security, optionally over a date range. If no arguments are provided, the
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total account balance as of the end of time is returned. If one date is
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provided, the balance as of that date is returned. If two dates are provided,
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the difference in balances between the first and second dates is returned.
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### Securities
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You can get a table containing all the securities/currencies registered to an
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account using the global function `get_securities()`. Each of these securities
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has several fields describing it:
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* `s.SecurityId`
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* `s.Name`
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* `s.Description`
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* `s.Symbol` returns the symbol traditionally associated with that security
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(i.e. '$' for USD, or BRK.B for class B shares of Berkshire Hathaway)
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* `s.Precision` returns the number of digits of precision past the decimal point
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that this currency allows for (i.e. 2 for USD)
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* `s.Type` returns an int constant which represents what type of security it is
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(i.e. stock or currency)
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Securities support a ClosestPrice function that allows you to fetch the price of
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the current security in a given currency that is closest to the supplied date.
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For example, to print the price in the user's default currency for each security
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in the user's account:
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```
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default_currency = get_default_currency()
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for id, security in pairs(get_securities()) do
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price = security.price(default_currency, date.now())
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if price ~= nil then
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print(tostring(security) .. ": " security.Symbol .. " " .. price.Value)
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else
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print("Failed to fetch price for " .. tostring(security))
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end
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end
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```
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You can also query for an account's default currency using the global
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`get_default_currency()` function.
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### Prices
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Price objects can be queried from Security objects. Price objects contain the
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following fields:
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* `p.PriceId`
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* `p.Security` returns the security object the price is for
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* `p.Currency` returns the currency that the price is in
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* `p.Value` returns the price of one unit of 'security' in 'currency', as a
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float
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### Dates
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In order to make it easier to do operations like finding account balances for a
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month at a time, MoneyGo implements it's own date type (eschewing the
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traditional Lua implementation). You *must* use the MoneyGo date types when
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passing them to any MoneyGo lua functions. To create a date object, you can use
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one of two methods:
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1. `date.now()` returns the current date
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2. `date.new(2017, 7, 5)` returns a date object representing July 5th, 2017.
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Note that this method also accepts a single argument of a table with the
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'year', 'month', and 'day' fields set to int's.
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In addition to supporting conversion to a string, addition, subtraction, and
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comparison operators, dates support returning their constituent parts using
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`d.Year`, `d.Month`, and `d.Day`.
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