![](logo.png) Kalker (or "kalk") is a calculator program/website that supports user-defined variables, functions, derivation, and integration. It runs on Windows, macOS, Linux, Android, and in web browsers (with WebAssembly). [![Crates.io](https://img.shields.io/crates/v/kalker)](https://crates.io/crates/kalker) ![npm](https://img.shields.io/npm/v/@paddim8/kalk) [![GitHub](https://img.shields.io/github/license/PaddiM8/kalk)](https://github.com/PaddiM8/kalker/blob/master/LICENSE) [![Docs.rs](https://docs.rs/kalk/badge.svg)](https://docs.rs/kalk/latest/kalk/) ![Build status](https://img.shields.io/github/workflow/status/PaddiM8/kalker/Rust?event=push&label=build%20%26%20test) [Kanban](https://kolan.strct.net/Board/4RAdMjLDz) | [Website - Try it out here!](https://kalker.strct.net) ![](preview.png) ## Features * Operators: `+`, `-`, `*`, `/`, `!` * Groups: `()`, `⌈ceil⌉`, `⌊floor⌋`, `[iverson]` * [Pre-defined functions and constants](https://github.com/PaddiM8/kalker/blob/master/kalk/src/prelude/mod.rs) * User-defined functions and variables. `f(x, y) = xy`, `x = 5` * Derivative of functions (derivatives of noisy functions or of higher order can be a bit inaccurate). `f'(2)`, `sin'(-pi)` * Integration. `∫(0, pi, sin(x) dx)` or `∫(0, π, sin(x) dx)`, maybe sometimes be slightly off * Understands fairly ambiguous syntax. Eg. `2sin50 + 2xy` * Syntax highlighting * Special-symbol completion on tab. Eg. write `sqrt` and press tab. It will be turned into `√`. * Sum function: `sum(start, to, expression)` Eg. `sum(1, 3, 2n+1)` is the same as `2*1+1 + 2*2+1 + 2*3+1` = `15` * Piecewise functions: `f(x) = { f(x + 1) if x <= 1; x otherwise }`, pressing enter before typing the final `}` will make a new line without submitting. * Load a file including predefined functions and constants. For example, if you're going to use kalker for physics, you load up your file with physics functions/constants when starting kalker. `-i file` * Misc: separate expressions by a semicolon to write them on the same line, use the `ans` variable to get the value of the previously calculated expression. ## Installation ### Package managers #### macOS `brew install kalker` #### Arch Linux `kalker` in the AUR, eg. `yay -S kalker` ### Binaries Pre-compiled binaries for Linux, Windows, and macOS (64-bit) are available in the [releases page](https://github.com/PaddiM8/kalker/releases). ### Compiling **Minimum rust version: v1.36.0**. Make sure you have `diffutils` `gcc` `make` and `m4` installed. **If you use windows:** [follow the instructions here](https://docs.rs/gmp-mpfr-sys/1.2.3/gmp_mpfr_sys/index.html#building-on-windows) (don't forget to install `mingw-w64-x86_64-rust` in MSYS2). #### Cargo Run `cargo install kalker` #### Manually 1. Go into the `cli` directory. 2. Run `cargo build --release` 3. Grab the binary from `targets/release` ## Libraries There are currently three different libraries related to kalker. * [kalk](https://crates.io/crates/kalk): The Rust crate that powers it all. * [@paddim8/kalk](https://www.npmjs.com/package/@paddim8/kalk): JavaScript bindings for `kalk`. This lets you use it in the browser thanks to WebAssembly. * [@paddim8/kalk-component](https://www.npmjs.com/package/@paddim8/kalk-component): A web component that runs `@paddim8/kalk`, which let's you use kalk in the browser with a command line-like interface. ## Syntax A more complete reference can be found on [the website](https://kalker.strct.net) ### Functions **Defining:** name(parameter1, parameter2, ...) = expression\ **Example:** `f(x) = 2x+3` **Using:** name(argument1, argument2)\ **Example:** `f(2)` ### Variables **Defining:** name = expression\ **Example:** `x = 3` **Using:** name\ **Example:** `x` ## Contributing ## kalk and cli (Rust) After making changes to the kalk library (in `kalk/`), you can easily try them out by going to the root of the project directory, and doing `cargo run`. This will start kalker (cli), with the new changes. If you're using Windows, you will need to [follow the instructions here](https://docs.rs/gmp-mpfr-sys/1.2.3/gmp_mpfr_sys/index.html#building-on-windows), but also make sure to install `mingw-w64-x86_64-rust` in MSYS2. ## web (Svelte, TypeScript, Sass) Run: 1. `npm install` 2. `npm run dev` - this will automatically re-compile the project when changes are made ## mobile (Android) Run: 1. `npm install` 2. `npx cap sync` 3. Build the project using Android Studio, or Gradle directly.