a specialized constraint solver for budget flows
Budgeteer allows you to effortlessly balance a budget without doing any monotonous work. It lets you define intuitive resource flows and automatically balance them for you. "Resource" is purposely non-specific here -- you can use this tool to balance a monetary budget, manage your time, track calories, or whatever you want.
Budgeteer is written in TypeScript and relies on kiwi.js to do constraint solving under the hood.
Check out the demo website to see it in action, or keep reading if you want to integrate the API yourself.
npm install @tannerntannern/budgeteer
or
yarn add @tannerntannern/budgeteer
import { supply, pipe, consumer, solve } from '@tannerntannern/budgeteer';
// 1. Build a network
const wages = supply('Wages', 2500);
const checking = pipe('Checking');
const expenses = pipe('Expenses');
wages
.supplies(700).to(consumer('Taxes'))
.supplies(1200).to(checking)
.suppliesAsMuchAsPossible().to(consumer('Savings'));
checking
.suppliesAsMuchAsNecessary().to(expenses)
.suppliesAsMuchAsPossible().to(consumer('Spending Money'));
consumer('Rent').consumes(900).from(expenses);
consumer('Groceries').consumes(200).from(expenses);
// 2. Balance the network and view results
const results = solve();
results.transfers.forEach((node1, node2, amount) => {
console.log(`${node1.name} -- $${amount} --> ${node2.name}`);
});
Which will print:
Wages -- $700 --> Taxes
Wages -- $1200 --> Checking
Wages -- $600 --> Savings
Checking -- $1100 --> Expenses
Checking -- $100 --> Spending Money
Expenses -- $900 --> Rent
Expenses -- $200 --> Groceries
Notice how the unspecified values (savings, expenses, and spending) have all been calculated for you.
For more detailed information, see the generated docs.
Budgeteer has three functions for modelling a resource network:
Function | Description | Example |
---|---|---|
supply(name, amount, multiplier?) |
Creates a supply node, from which other nodes can draw resources from | Wages, savings interest |
consumer(name) |
Creates a consumer node, which can draw resources from other nodes, but cannot provide | Rent, grocery expenses |
pipe(name) |
Creates a mixture between a supply and consumer node; it can both draw and provide resources, although the pipe must draw at least as much as it provides | Bank accounts |
Nodes that provide are "consumable," and nodes that can recieve supply are "supplyable." Thus, supply nodes are consumable, consumer nodes are supplyable, and pipe nodes are both.
Relationships (i.e., flows) between nodes are established through a chainable API. Each flow requires two function calls: one that specifies how much, and another that specifies where. For example: income.supplies(1000).to(rent)
All consumable nodes have the following methods, each one followed with a .to(<supplyable node>)
call, similar to the example above:
Function | Description |
---|---|
supplies(amount) |
Supplies a fixed amount to another node |
suppliesAsMuchAsNecessary() |
Supplies only as much as the recieving node needs |
suppliesAsMuchAsPossible() |
Supplies any remaining resources to another node |
All supplyable nodes have the following methods, each one followed with a .from(<consumable node>)
call. For example: rent.consumes(1000).from(wages)
:
Function | Description |
---|---|
consumes(amount) |
Consumes a fixed amount from another node |
consumesAsMuchAsNecessary() |
Consumes only as much as necessary from the supplying node |
consumesAsMuchAsPossible() |
Consumes any remaining resources from the supplying node |
To resolve the network use solve()
, which takes the nodes created by the supply
, consumer
, and pipe
functions, along with all the relationships established between them, and calculates the resulting balances and transfers.
solve()
is called without arguments. If the network can't be balanced, it will throw an error. Otherwise, it will return an object with three data structures:
Property | Description |
---|---|
allNodes |
An array of all the nodes that were created by the three node type functions |
tranfers |
A TwoKeyMap (see the generated docs) that maps pairs of nodes to the amount transferred between them |
balances |
An ES6 Map of the final balance at each node after all the consuming and supplying is over |
If you want to clear all nodes and setup a new network, use the reset()
function.
I recently made a post that, among other things, talks in detail about how these function calls translate to mathematical constraints. If you're interested, here's a link.
Tanner Nielsen tannerntannern@gmail.com
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