CoffeeScript vs Elm
When comparing CoffeeScript vs Elm, the Slant community recommends Elm for most people. In the question“What is the best programming language to learn first?” Elm is ranked 13th while CoffeeScript is ranked 65th. The most important reason people chose Elm is:
Lack of run-time exceptions makes it easy to produce large swathes of reliable front-end code without drowning in tests.
Specs
Ranked in these QuestionsQuestion Ranking
Pros
Pro Compiles to readable Javascript
With CoffeeScript, there's never really a question of what is going on. If you're worried that something went wrong in the compilation process, the output is very human readable and mostly 1 to 1 with the CoffeeScript code, making debugging easier as the code that is being executed by the interpreter can be double checked.
Pro Widely used
CoffeeScript is the most popular of the compile to Javascript languages, so long term support is much less of a worry than with others.
It also means there are many plugins and tools for integrating it into many different build systems, giving it it nearly universal support.
Pro Lightweight syntax
Javascript is a very verbose language so CoffeeScript's goal is to lighten it to make it less tedious.
Various design choices are built around making CoffeeScript more terse with things like optional parenthesis in function calls, cleaner function declarations, no curly braces, and significant white space. Because Javascript can get pretty deeply nested at times, having a lightweight syntax helps with readability.
The result is a language with a minimalistic syntax with lots of syntax sugar.
Pro It's just JavaScript
The golden rule of CoffeeScript is: "It's just JavaScript". The code compiles one-to-one into the equivalent JS, and there is no interpretation at runtime. You can use any existing JavaScript library seamlessly from CoffeeScript (and vice-versa). The compiled output is readable and pretty-printed, passes through JavaScript Lint without warnings, will work in every JavaScript runtime, and tends to run as fast or faster than the equivalent handwritten JavaScript.
Pro Syntax for humans, not compilers.
CoffeeScript adds syntax that is not only more terse than javascript, smoothing over the rough edges, but also enforces a more human readable syntax to the point where a non-programmer can understand some logic.
Many programmers that are not use to coffeescripts syntax will find it foreign if they don't read the single page API, but generally it is quick to understand and although self documenting code is a myth coffeescript is definitely very close.
if hungry then eat food for food in fridge when food isnt poison and it isnt bedtime
Seems a lot more concise and comprehensible to many programmers and most others than the alternative syntax:
var food, i, len;
if (hungry) {
for (i = 0, len = fridge.length; i < len; i++) {
food = fridge[i];
if (food !== poison && it !== bedtime) {
eat(food);
}
}
}
Pro Function syntax is great for callbacks
Passing functions as callbacks is central to how Javascript is written, but the default syntax for functions is very verbose and hard to read. Various CoffeeScript syntax decisions help with ease of writing and reading functions.
The most obvious change is that the function keyword is changed from function
to ->
. Writing out the word function
is very clunky especially when you need to use multiple nested functions.
One of the more opinionated choices of CoffeeScript is the use of significant whitespace, and optional parens around function arguments. While this can be used poorly, it can also be used to great effect with nested functions. For example, a function that takes an object that defines anonymous functions will end in a mess of parens and curly braces:
asyncAction({
success: function(data){ /* handle data */ },
error: function(error){ /* handle errors */ }
});
In CoffeeScript you could rewrite this as:
asyncAction
success: (data) -> /* handle data */
fail: (error) -> /* handle errors */
Other helpful features are automatic returning of the last statement to make short anonymous functions easier so (a, b) -> a+b
would replace function (a, b) { return a+b; }
, as well as binding functions to the current context object with =>
.
Pro Splats
Because Javascript functions can take variable amounts of parameters, it is helpful to be able to use splats to extract an array of arguments in a function.
For example, if you have a function like: (a, b, rest...) ->
any amount of parameters sent to the function after a
, b
will be stored in an array in the variable rest
. You can also put splats at the start or middle of the arguments list, such as (a, middle..., b) ->
.
When calling a function you can use a splat to apply an array as arguments as well.
Pro Everything is an expression
Even for
loops and if
statements. For example, to get mapped array, you don't have to use any Array methods, just the language features:food = ( stuff for stuff in fridge when stuff.isEatable() )
Pro Familiar to Ruby programmers
CoffeeScript was created by a Ruby programmer and a number of syntax features are modelled on Ruby equivalents, so will be familiar to Ruby programmers. For example, implicit returns, i.e. the last variable of each function is implicitly returned, so "return" keyword need not be present.
Pro Extremely easy to document with literate coffeescript
Skip the documentation build, just write documentation with literate CoffeeScript.
CoffeeScript has a literate mode which let's you use markdown (used by almost everything, such as reddit, github, stack exchange, etc) with code indented how you would normally in markdown and simply enables you to run the code.
This enables you to quickly write FORMATTED, custom documentation that's easily displayed with no build step for the documentation.
Pro Source maps allow you to debug code in CoffeeScript
With source maps, you can get the proper location of where an error occurred directly in precompiled code, making it easier to debug without the tedious step of translating the compiled code back to the original code in your head.
Pro Significant whitespace
Having indention-based code blocks is particularly helpful in JavaScript because of its functional callback based nature. In JavaScript you find yourself writing functions within object and passing functions to functions. You can find statements ending with a confusing melange of braces like )}})})
. With significant whitespace, most of the needs for braces go away.
Pro Default choice for Ruby on Rails
Pro Maintainable code
Easy to read and easy to work with structures like list.
Pro No run-time exceptions
Lack of run-time exceptions makes it easy to produce large swathes of reliable front-end code without drowning in tests.
Pro Inferred static typing
ML static typing is great because it's always there, you just choose how explicit you want to be and how much you want the compiler to do.
Pro Super easy refactoring with very helpful compiler errors
In no other language you can refactor so easy without any worries, since the compiler will guide you through. It is like TDD but than compiler-error driven.
Pro Designed around high-level front-end development
As Elm was designed as a front-end langauge, it has out of the box support for things like DOM-element creation, letting programmers focus on their application logic, rather than implementation details specific to the web.
Pro Great and simple way to learn Purely Functional Programming
You can try to apply some functional programming ideas in other languages that have an imperative basis, but you haven't seen the real power unless you tried it in the environment of purely functional programming. Elm is a simple language with great learning resources and easy graphical output, which makes it easy to explore the power of functional programming. Plus programming in Elm is very readable.
Pro Good tooling
All major editors have great support. With Atom for example, Elm plugins are available for linting, formatting, make/compiler support and Elmjutsu will simply overflow you with super useful functions, like navigate to referenced definition and show expression type.
Pro Batteries included
The Elm Architecture means you don't need to spend valuable time and effort choosing the right frameworks, state management libraries, or build tooling. It's all built in.
Pro Static module system
Elm uses easy to use modules.
Use:
import List
import List as L
import List exposing (..)
import List exposing ( map, foldl )
import Maybe exposing ( Maybe )
import Maybe exposing ( Maybe(..) )
import Maybe exposing ( Maybe(Just) )
Creation:
module MyModule exposing (foo, bar)
Pro Missing syntactic sugar
Easy to learn, most functions have only one way, not 5 alternatives where you must study where to best use what.
Pro Growing community
Pro Interactive Programming and Hot Swapping
Support for hot swapping and interactive programming is included.
Pro Easy to code review
The lack of side-effects and simple, consistent language semantics make it easy to quickly review incoming changes.
Pro Higher confidence in code correctness and quality
Pure functions, immutable data structures, amazing compiler, clean and homologous syntax used for HTML, logic, and optionally to replace CSS, elimination of entire classes of bugs so you don't even need most unit tests. These factors lead to better code, better programs, higher confidence, and ultimately, more satisfaction.
Pro Not quite Haskell semantics
Luckily you do not have to learn Haskell to be able to do any Elm. It is meant to be a language that compiles to Javascript, so for Javascript programmers (Front end) not for CS students who want to learn as many different algorithms as possible.
Cons
Con Terse syntax can lead to ambiguity
It can sometimes be hard to be sure of what CoffeeScript will compile down to because of the optional parentheses and significant white spacing. Over multiple lines the same statement can be written in many different ways, and it's not always clear what the intended interpretation is.
For example:foo bar and hello world
can compile to either:
foo(bar) && hello(world)
foo(bar && hello(world))
Con Initializing a variable and assigning it are essentially the same thing
Because of how variables are initialized and reassigned in CoffeeScript, it becomes very easy to accidentally overwrite a variable as the codebase increases. As complexity increases, the only way to safely create a variable is by pressing Ctrl + F and by examining the current file to ensure that there's no conflict.
Con Last expression is returned by default
While this is a pro for small functions, it requires self-discipline to check if unnecessary overheads are introduced:
eat_full = ->
for food in fridge
break if full
cook food if food.requires_cooking()
eat food
This will return array of eat
function results. Can be fixed by adding empty return
at the end.
Con Lack of typeclasses
Elm doesn't have typeclasses which means some code needs to be duplicated. A fix in a function that needs typeclasses means all of the duplicates need to be fixed too.
Con limited js interop
only one way ports are available as a crude js FFI. This means you can only call functions both directions but will not get a result.
Con Harder to get buy-in from devs and mgmt
It's a total divergence from what most people are used to in the JS ecosystem. The change in syntax can be scary, the change in approaching problems can be scary. The fact that it's not backed by FANG can be scary. The fact that it's not v1.0 can be scary. The governance model and the deliberately slow release cadence can be scary. There are a couple harsh medium articles, hackernews/reddit posts out there made by people with an ax to grind that can be scary if you don't have a better picture of the Elm community, the tradeoffs that have been made, or the benefits to be had over other options. None of these are good reasons to write off further investigation of a great tech, but it happens.
Con Code Repetition
Because of the lack of genericness Elm needs a lot of code to be repeated. There are 130+ implementations of map in elms core libraries.
Con Features get removed without warning
Often features that are deemed to be misused by the community like infix operators get removed without much of a warning.
Con Community harsh if criticised
If one even dares to start a discussion about a feature on elms slack, discord, subreddit or github one will be aggressively shut down often argueing that one should use purescript instead
Con Poor Windows support
Few if any of Elm's core contributors are Windows users and breaking bugs are sometimes left for weeks or months.
Con Good for beginners not good for experts
Development in elm is quite nice until you need some more advanced features. These however are actively discontinued and removed because elm wants to establish a "single way of doing things" philosophy
Con Updates break existing code often
The last few updates of elm broke existing code in major ways.
Con Adds an additional layer of abstraction
Some users claim that Elm adds an additional layer of abstraction, meaning that it is one more hurdle between the brain and the product.
Con Functional programming itself has quite a steep learning curve
Functional programming can be quite difficult to get your head around. It takes time to unlearn object orientational habits.
Con No Genericness in the future
Currently there is no code genericness like typeclasses possible, it has been officially stated that this will never change.
Con Not database-friendly
It is lots of work to make a server or database your "one source of truth", as Elm makes you write endless JSON parse boilerplate to talk to the server.
Con No Syntactic Sugar
Often you need to write longer and less readable code because there are no alternatives that are more concise.