I'm not sure if getting some extra syntactic sugar is worth adopting a whole other language into a codebase: at least, that seemed to be one of the lessons from CoffeeScript.
Eh, as long as the team is on board, and the sugar is simple enough and maps well to the underlying language without a ton of extra code, then I have no issues with it.
If it ever becomes a liability, you just check in the "transformed" code and it's gone.
You check in the transformed code and it’s gone, except for the Ghost of Syntactic Sugar which will haunt your codebase forever and make the juniors wonder why all the code is so awful.
> If it ever becomes a liability, you just check in the "transformed" code and it's gone.
I've done this and regretted it - CS transpires to ES3 and specifically null chaining is completely unreadable.
From a backend perspective it's no biggie to instead keep the CS dependency and gradually convert files manually when you have to make changes anyway, or when you have 15 minutes to spare between meetings.
You become fluent enough to not even need tests after a while (yikes!).
Back when there was no async/await and no promises, passing callbacks like this was extremely tedious, and node.js had a lot. CoffeeScript was worth using for the fat arrows alone.
CoffeeScript didn't die. JavaScript (ES3/5) died and we are all using CoffeeScript now!
As someone who used to be a big CoffeeScript advocate, I agree that adopting CoffeeScript over modern JavaScript isn't worth it. However adopting CoffeeScript when it came out over what JavaScript looked like at the time was a much bigger win.
That being said, as much as I liked using CoffeeScript in my own personal projects, adopting it for a non-trivial project at work probably turned out to be a net mistake all things considered. The only positive was that the .js output files where clean any easy enough to work with that we could quite easily just drop CoffeeScript and continue developing directly with those .js file
I love me some lisp, but I definitely prefer my JS-hosted code to be as close to JS language and semantics as possible (and that’s after a few years working in ClojureScript). Then again I’m commenting in a thread about an article with CoffeeScript in the title so I’m probably the weird one here.
No, unfortunately the greener pastures I found have type annotations. I miss the parentheses like hell, and I miss the actual state semantics of Clojure even more. But I wouldn’t give up static types for any of that. If I explore lisps again I’m going to start with Typed Racket.
If you’re willing to accept a little bit of extra syntax/ceremony, the `do` expressions proposal[1] is pretty much this (but it’s only stage 1 so who knows when/if it’ll land).
Since our goal is to be 99% compatible with ES we'll need to accommodate any proposals that become standard and pick up anything TC39 leaves on the table (rest parameters in any position, etc.)
The original ternary "fixes" the cases where `x` is "wrong" (e.g., is not a string - `x.length` does not fail, but evaluates to false, and thus you still get `<empty>`).
This even more terser code will fail if `x.toUpperCase()` fails with an exception (such as when x is not a string).
Given the example I think it is reasonable to assume it is always an string; otherwise if there is any possibility that x is not a string you can just use optional chaining:
> First, copy the entire file content over to a new file called src/Main.res by using our %%raw JS embedding trick:
> %%raw(`const school = require('school'); etc. `)
I stopped reading there - I'm sorry but that is horrifying. Wrapping JS in in a big backtick string?! No. That's even worse that Dart-JS interop.
It really is one of my favorite languages. Elegant and expressive. One of my all time favorite projects was an Electron-based React app written in CoffeeScript.
A distinction between invisible character X and invisible character Y is a terrible idea. But indentation is very much visible; it's generally more significant to the reader than braces are, so it should be that significant to the computer too.
A Concise and Powerful Dialect of TypeScript. (my favourite but some might argue that Civet is more than a dialect. I think it's a dialect.)
TypeScript, Streamlined
Write Less, Do More
Expressive Syntax and Faster Coding. (there's already two slogans, and this one is great, plus you don't have to repeat the name of the project in the title section)
Expressive Syntax, Fast Coding. (feels a bit crisper to my ears)
I think there's many ways you can say, "this is an awesome, fast, concise way to write web code that compiles to TS/JS" without suggesting it's _the_ way to write _modern_ TypeScript.
Of course it is, at least conceptually. See various lisps’ threading macros (which are of course functions over code; but they correspond exactly to mapping over a series of functions, each one supplying input to the next).
I totally agree, I shouldn't have been so absolute in my statement. But JS is not a lisp. The |> foo bar baz syntax doesn't jive with any other syntax in JS, but foo |> bar |> baz does.
As someone else, it does in Clojure (which is what I wrote most of the time). But even if it didnt, does it matter? If there is a better way, the way is better, no matter if it exists in other languages or not.
If all languages tried to be the same, most of them would be boring.
At that point, a simpler binary function will make more sense
|> = flip($)
And tsc will interpret the types in the pipe more correctly. Of course, the compiler can allow functions to be called without parentheses to avoid a macro for pipe calls, which will bring our definitions to
$ = (f, x) => f x
flip = f => (x, y) => f y x
|> = (x, f) => (flip $) x f
It might also help to add a simpler function composition function too, as it will greatly help reuse without requiring you to write lambdas
$ = (f, x) => f x
flip = f => (x, y) => f y x
. = (f, g) => x => $ f (g x)
|> = . flip $
It could also help to remove those pesky parentheses from lambda definitions too, maybe with simpler declarations like `f x y =` converting to `f = (x, y) =>` and enabling automatic currying:
$ f x = f x
flip f x y = f y x
. f g x = $ f (g x)
|> = . flip $
But, have you noticed that we mostly have binary functions? We could greatly improve readability by making our "modifier" functions (aka combinators or adverbs) into operators. So civet could implement a special syntax for operator definition, and then we would write for definitions like
($) f x = f x
flip f x y = f y x
(.) f g x = f $ (g x)
(|>) = flip . $
(Oh wait, does this look like something else?) So we would be able to express `console.log(Object.keys(data))` like
data
|> Object.keys
|> console.log
or equivalently
(console.log . Object.keys) $ data
without having to special case for pipes! But more importantly, if you enjoy the Clojure method of piping, you can define
|>> x f ...fs = f ? |>> (f x) ...fs : x
which would give you the syntax you like. And I have a feeling the types will compile just right in a language that looks like this...
I think the pipe operator makes more sense this way. It behaves like shell pipes (grep |> sort |> uniq |> cut |> echo) rather than the Clojure equivalent.
I wouldn't put every method on a new line, though.
Way back in the early 2010s I was very "excited" about coffee script and similar projects. They sounded like they should be great for productivity.
When I actually tried to write a project in coffee script, the results were the opposite of what I expected.
The code was harder to read, harder to modify, harder to understand, harder to reason about.
There's something about removing stuff from syntax that makes programming harder. My hypothesis is this: your brain has to spend extra effort to "decompress" the terse syntax in order to understand it, and this makes reading code unnecessarily difficult.
So I fundamentally disagree with the underlying premise of these projects, which seems to be based on PG's concept of "terse is power".
My experience suggests the opposite: there's power in being explicit. Type declaration is an example of such a feature: it makes explicit something about the code that was implicit.
Type declarations add more to the parse tree, and require you to type more, but they actually give you more power.
The same can be said about being explicit in the language constructs.
There of course has to be a balance. If everything is way too explicit (more so than needed) then your brain will do the opposite of what it needs to do with terse code: it has to spend more effort to remove the extra fluff to get to the essence of what the code is doing.
Being terse is good, up to a point. Same with being explicit.
Languages that try to bias too strongly towards one extreme or the other tend to miss the mark. Instead of aiming for balance, they start to aim for fulfilling some higher telos.
Is it? I find most of the "winning" tech deeply unproductive. Have you tried developing in a project with Webpack and Redux? It's kind of its own little hell. Everything is way too slow and complicated. Tasks that should take 20 minutes take 3 hours.
The problem is, the entirety of the javascript ecosystem is built for large teams doing multi-year enterprise projects, and so unless you're launching a social media startup or something, you have to wade through a swamp of unnecessary complexity.
Yeah, I like a lot of the language features here, especially:
- Everything is an expression
- Pattern matching
- Spread in any position
- Dedented strings/templates
However, I wouldn't use it, because the chance of it becoming abandonware that I just have to migrate off of later is way too high. I'll write a few extra TypeScript characters here and there for the stability.
Unless civet's compiled output is hard to read you could always just check in the compiled Typescript source and continue from there if it gets abandoned. Not much of a risk when the migration is built in by the way the tool works in normal use.
The compiled output seems pretty clean, but isn’t necessarily what you’d write by hand. e.g. adds things like anonymous functions called immediately, when you’d probably just write a named private function, that sort of thing.
CoffeeScript did end up winning though, all of its important features ended up in the next Javascript spec. It was a bit sad to transition into the slightly less aesthetic next Javascript release, but it also felt triumphant. To me it feels like the CoffeeScript community won. Every time I type some Javascript that's actually not fragile and not absolute garbage, I remember it's because we as a community backed CoffeeScript, and that led to the browsers listening and adding its features to Javascript.
I am certain we're doing the same thing now with Typescript.
Go's error handling pattern is a great example of being overly explicit IMO. I personally like it, but I can understand why it causes so much controversy.
I find that Go errs way too strongly on the explicit side, but overall it's still better than many other alternatives.
For error handling I tend to write in a style where errors are either asserted out or "folded". If I do several operations in sequence any of them could err, I code in a way where I don't check every single op: instead I make some kind of "error accumulator", or write the code in a style such that if the previous operation failed the next operation will become effectively noop. I then check for errors at the end of the process.
That said, Go is actually right about treating errors as values and not giving special language constructs to throw/catch them.
Yea but Go's solution to errors is a straight jacket. There's nothing in say Java that prevents returning a Result type with an error or value and writing code that way.
I guess you can panic/recover in go but it's very very unwieldy and not quite the same.
Rust is one of the few languages I've seen that really does error handling right.
Errors are still values in Rust - usually as part of the `Result` type - but unlike Go, it actually has tools to let you deal with them in a convenient way, like the `?` propagation operator (https://doc.rust-lang.org/book/ch09-02-recoverable-errors-wi...), or the functions on the `Result` type like `map`, `and_then`, `map_err`, or crates like `thiserror` for defining error types, and `anyhow` for easily converting them when you don't care about the details.
The fact that the anyhow/thiserror crates are basically required, or you have to make a bespoke enum for your crate's errors and write conversion functions for them, is not great.
The try operator and Result type is amazing though.
Many languages have this discussion about what functionality belongs in the standard library and what is best left to external libraries - to avoid being stuck with a bad design forever because of backwards compatibility, etc.
I don't see a problem with relying on a few super popular basic libraries for almost every project.
Same, even though a lot of syntax is theoretically unnecessary, they chunk the code into patterns that help navigate the complexity.
Otherwise it's like improving the efficiency of a closet by ripping out the shelves, drawers, dividers, coat hangers, etc... so that it's just one big volume-maximized empty room.
I don't know how much you actually tried coffeescript but I find your opinion strange. Coffee wasn't ever like J or anything crazy terse. Its appeal came not merely from making things shorter (it did that, but not by a crazy margin), but from adding a lot of useful things to the language like ? operator, spread operator, destructuring, classes, ranges, better iteration, etc. Almost every coffeescript feature was ultimately added to Javascript (and with very similar syntax) which made coffee somewhat obsolete. Coffee's lack of brackets and semicolons everywhere and @foo instead of this.foo, as well as usage of other features certainly didn't take away any readability or explicitness, if anything - they made it better; the same way those same features make Javascript better and more readable (and, ekhm. "easier to reason about") as long as you _know_ them.
Coffee added really nice and productive language features to what at the time still was a very primitive and simplistic Javascript. It also offered a different syntax to existing and new features.
The first part was great and deserves credit for pushing the language to evolve. The second part made it a terrible dev experience. My experience was identical to the gp: writing it was fast and intuitive, but reading it was much, much worse. Not just reading other people's code, but even my own: my ability to understand my own code degraded not in weeks or months, but mere days. It was so bad, the overall result was a net negative and I quickly stopped using it. I say this as someone who has enjoyed writing code in over a dozen languages, from assembly all the way to Haskell.
I think you're talking about two separate things here,
1) Having to learn an entirely new syntax just to save on a few characters (it "decompresses" directly to the original thing)
2) Explicitness vs implicitness/inference
I wholly agree with you about #1 (superficial brevity isn't a very important goal and doesn't justify a whole new language), but #2 is much more of an "it depends"
I don't underestimate the human brain - however, I know as a fact, through ample empirical evidence, that implicit or dynamic typing makes my head hurt and has me scrambling through multiple code panes trying to understand the input or return types for code that I wrote five days ago.
I also know as a fact that programmers 100x my caliber have nevertheless written great large-scale software without types.
So I don't make generalizations on the human condition and just do what works for me!
\tangent Things stated by implication are harder to understand because of the cognitive load.
But I wonder, if the compiler can get by without it, perhaps we can too? With a different mental model/abstraction, that simply does not need that information - not even by implication. If there is one, probably not easy to come up with.
Reading CoffeeScript, and this Civit language, feels like reading prose that doesn't have any punctuation. Slightly quicker to write, much harder to read.
> Being terse is good, up to a point. Same with being explicit.
I'm thinking of using Civet for an upcoming project, I specially want `do` expressions. Even with how much noise an IIFE (`(() => {doStuff(); return ...;})()`) introduces, it's such a natural idea to me that I end up using them very often.
But what makes me question the idea is having to learn a new syntax that is close enough to the JS I already know that I'm going to get confused constantly.
Why would I care about writing `export a, b from "./cool.js"` instead of `export { a, b } from "./cool.js"`? I don't mind those curly braces, I may actually like them a bit; I do very much mind the overhead of remembering these details when I change languages, and there's no way I can remove JS/TS from my life.
Finally, there's expressions like `value min ceiling max floor`. Is that readable at all? You have to actually read each word to know which are operators, which functions, which vars... It seems to me much worse than `max(min(value, ceiling), floor)` or a Lispy alternative like `(max (min value ceiling) floor).
All natural languages have a little bit of redundancy. It helps solve ambiguities more easily, especially when solving it in a strictly minimal grammar would require re-parsing the entire text from start. Having both opening and closing parens / brackets / braces is a good example.
Redundancy also helps when transmission is imperfect. And you do have imperfect transmission when writing code (typos), and even when reading (skimming text, missing a character).
CoffeScript makes every character count, especially punctuation. It's really, really easy to make a small typo in these. But CoffeeScript eschews redundancy, so the typo becomes another valid grammatical construction, with an entirely different meaning. At best, you get a cryptic translation error elsewhere. At worst, it gets accepted but works differently than you had intended.
APL has this property, too. But an APL program is very terse, you pay attention to every character in a short string of them. It does not feel like Javascript which is traditionally lax in the punctuation and whitespace department, catching you off guard.
CoffeeScript was an interesting experiment, but I'd say its result is negative.
I agree. The Rust foundation (or Mozilla's Rust Team in the early stages) tried out a sigil heavy approach in the beginning, but they ultimately made the decision to steer Rust away from being overloaded with single character keywords of differing significance.
Sadly, with Steve Klabnik's withdrawal from the core Team, the current maintainers are on a path to repeat these mistakes.
If you don't want to make the same mistake as me: don't ever choose to use a language whose syntax doesn't distinguish between variable assignment and variable declaration. Yes this includes coffeescript. This seems optional in civet [1].
I've got 99 problems but the tersity in TypeScript isn't one of them. Can't wait to groan that a random project we depend on uses this and I have to learn new syntax to make a 1 line change.
Whenever I saw coffeescript I just felt like the developers fancied a change for change sake and doesn't have real problems to solve.
It's clever though to create a new syntax, I'll give you that
I like the documentation that TypeScript types provide but I'm always running into lots of small quality of life issues that wear me down.
- Rest in any position
- Dedented block strings
- Default to const in for loops
- Lack of -> function shortand
- Everything is an expression
- Implicit returns
- Chained comparisons
- Nested unbraced object literals
- Optional trailing commas in arrays
- Optional trailing commas in objects
- x.map .name function shorthand
Each one is a fairly minor concern but they all add up. I'm sure different people will have a different list of favorite features as well. One of my goals in creating Civet was to fix my top 100 issues with TS syntax while being 99% backward compatible. The ultimate goal being: TS with my top 100 issues fixed will be the best language I have ever used.
Hey Yahivin! I love the idea and would love to use it and spread it. I think the best way to jumpstart that is a VS Code extension that allows Civet to be used as an Emmet style tool for the modern developer - write code really quickly and have it convert to production grade typescript following all your eslint / prettier rules, and use it as a personal speed up tool for just writing. When your coworkers start asking how you're moving so fast you tell them about Civet!
I wrote this 10 years ago, it's made the rounds. I stand by it even if it's a little long in the tooth. I would word it a little differently these days, but it stands on it's own.
I like to think I helped lead people away from CoffeeScript.
Good news! Civet fixes several of the more contentious design decisions from CoffeeScript by trying to be more in line with ES semantics. You need to declare variables by default in Civet. You can opt in to CoffeeScript's automatic var if you need to migrate from a CoffeeScript codebase by using the "civet autoVar" directive.
Very tastefully done. Every one of these items is a huge improvement. This one in particular drives me crazy: `x.map(($) => $.name)`, `x.map .name` is almost Haskell level terseness.
Can this all not be done as experimental typescript though, rather than a new language?
Civet aims to be 99% compatible with existing TypeScript so it could be considered an experimental TypeScript. With any luck Civet catches on and does to TS what CoffeeScript did to ES and all the best features trickle into the standard eventually.
The difficult part for TS/JS is they can't easily opt into some of the more whitespace/context sensitive features without breaking changes to existing code or forcing people to opt in with a "jsNext" directive or something.
I feel like this would be great as another Emmet style tool for the modern day - write code really quickly and have it convert to production grade typescript following all eslint / prettier rules, and use it as a personal speed up tool for writing instead of reading.
It’s funny - when we were first designing TypeScript - I often described it as "TypeScript is to CoffeeScript as C#/C++/Java is to Ruby" often adding "and there are 50x more of the former developers than the latter" [0]. And CoffeeScript’s approach of transpiling down to clean JavaScript was a big inspiration for TypeScript. In the 10 years since then, some of the Ruby/CoffeeScript aesthetic has become more mainstream in other programming languages (Swift, Rust), and gradual type systems have become more of an expectation even in dynamic languages like Ruby (Sorbet), Python (mypy) and PHP (Hack). So it does seem very natural to bring these back together now like Civet is doing.
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[ 6.0 ms ] story [ 216 ms ] threadIf it ever becomes a liability, you just check in the "transformed" code and it's gone.
That said, I always found CoffeeScript to be a worse language (syntactically) than JS.
I've done this and regretted it - CS transpires to ES3 and specifically null chaining is completely unreadable.
From a backend perspective it's no biggie to instead keep the CS dependency and gradually convert files manually when you have to make changes anyway, or when you have 15 minutes to spare between meetings.
You become fluent enough to not even need tests after a while (yikes!).
CoffeeScript didn't die. JavaScript (ES3/5) died and we are all using CoffeeScript now!
That being said, as much as I liked using CoffeeScript in my own personal projects, adopting it for a non-trivial project at work probably turned out to be a net mistake all things considered. The only positive was that the .js output files where clean any easy enough to work with that we could quite easily just drop CoffeeScript and continue developing directly with those .js file
Personally I couldn't let go of Clojure's other advantages but at least using the syntax would let you step off the syntax churn bus
1: https://github.com/tc39/proposal-do-expressions
We've added https://github.com/tc39/proposal-pipeline-operator, a variant of https://github.com/tc39/proposal-pattern-matching, a variant of https://github.com/tc39/proposal-string-dedent and others.
Since our goal is to be 99% compatible with ES we'll need to accommodate any proposals that become standard and pick up anything TC39 leaves on the table (rest parameters in any position, etc.)
This even more terser code will fail if `x.toUpperCase()` fails with an exception (such as when x is not a string).
I thought it was the comparable hand written JS.
> First, copy the entire file content over to a new file called src/Main.res by using our %%raw JS embedding trick: > %%raw(`const school = require('school'); etc. `)
I stopped reading there - I'm sorry but that is horrifying. Wrapping JS in in a big backtick string?! No. That's even worse that Dart-JS interop.
I’m quite surprised it’s not called ToffeeScript though.
'Civet' certainly implies your code is being processed, but I'm not sure the connotation is desirable.
And all IMHO of course, but significant-whitespace is the worst idea ever.
Hear hear! I never heard a single argument for significant invisible characters that makes sense, ever.
Who would want to have a program that fails because you used invisible character X instead of invisible character Y?
You'd think not, and yet ...
Simple copy/paste is enough to break significant-whitespace, let alone space-vs-tabs, etc, etc.
But again, all IMHO, I realise it has it's fans.
Wasn't super popular, but wasn't unknown either.
This might be a good stepping stone though to sway skeptics.
I feel like this is exactly the right kind of slogan for a project like this. Smug and opinionated, disregarding anyone who might not feel the same.
A Concise and Powerful Dialect of TypeScript. (my favourite but some might argue that Civet is more than a dialect. I think it's a dialect.)
TypeScript, Streamlined
Write Less, Do More
Expressive Syntax and Faster Coding. (there's already two slogans, and this one is great, plus you don't have to repeat the name of the project in the title section)
Expressive Syntax, Fast Coding. (feels a bit crisper to my ears)
I think there's many ways you can say, "this is an awesome, fast, concise way to write web code that compiles to TS/JS" without suggesting it's _the_ way to write _modern_ TypeScript.
If all languages tried to be the same, most of them would be boring.
I wouldn't put every method on a new line, though.
When I actually tried to write a project in coffee script, the results were the opposite of what I expected.
The code was harder to read, harder to modify, harder to understand, harder to reason about.
There's something about removing stuff from syntax that makes programming harder. My hypothesis is this: your brain has to spend extra effort to "decompress" the terse syntax in order to understand it, and this makes reading code unnecessarily difficult.
So I fundamentally disagree with the underlying premise of these projects, which seems to be based on PG's concept of "terse is power".
My experience suggests the opposite: there's power in being explicit. Type declaration is an example of such a feature: it makes explicit something about the code that was implicit.
Type declarations add more to the parse tree, and require you to type more, but they actually give you more power.
The same can be said about being explicit in the language constructs.
There of course has to be a balance. If everything is way too explicit (more so than needed) then your brain will do the opposite of what it needs to do with terse code: it has to spend more effort to remove the extra fluff to get to the essence of what the code is doing.
Being terse is good, up to a point. Same with being explicit.
Languages that try to bias too strongly towards one extreme or the other tend to miss the mark. Instead of aiming for balance, they start to aim for fulfilling some higher telos.
But “losing tech” is unproductive when you have to maintain/upgrade your code over many years and onboard new developers into the team.
It is unfortunate that the tech industry’s choice of tools is largely fashion-driven but that is the reality.
- Everything is an expression
- Pattern matching
- Spread in any position
- Dedented strings/templates
However, I wouldn't use it, because the chance of it becoming abandonware that I just have to migrate off of later is way too high. I'll write a few extra TypeScript characters here and there for the stability.
I am certain we're doing the same thing now with Typescript.
For error handling I tend to write in a style where errors are either asserted out or "folded". If I do several operations in sequence any of them could err, I code in a way where I don't check every single op: instead I make some kind of "error accumulator", or write the code in a style such that if the previous operation failed the next operation will become effectively noop. I then check for errors at the end of the process.
That said, Go is actually right about treating errors as values and not giving special language constructs to throw/catch them.
I guess you can panic/recover in go but it's very very unwieldy and not quite the same.
Errors are still values in Rust - usually as part of the `Result` type - but unlike Go, it actually has tools to let you deal with them in a convenient way, like the `?` propagation operator (https://doc.rust-lang.org/book/ch09-02-recoverable-errors-wi...), or the functions on the `Result` type like `map`, `and_then`, `map_err`, or crates like `thiserror` for defining error types, and `anyhow` for easily converting them when you don't care about the details.
The try operator and Result type is amazing though.
I don't see a problem with relying on a few super popular basic libraries for almost every project.
Otherwise it's like improving the efficiency of a closet by ripping out the shelves, drawers, dividers, coat hangers, etc... so that it's just one big volume-maximized empty room.
The first part was great and deserves credit for pushing the language to evolve. The second part made it a terrible dev experience. My experience was identical to the gp: writing it was fast and intuitive, but reading it was much, much worse. Not just reading other people's code, but even my own: my ability to understand my own code degraded not in weeks or months, but mere days. It was so bad, the overall result was a net negative and I quickly stopped using it. I say this as someone who has enjoyed writing code in over a dozen languages, from assembly all the way to Haskell.
1) Having to learn an entirely new syntax just to save on a few characters (it "decompresses" directly to the original thing)
2) Explicitness vs implicitness/inference
I wholly agree with you about #1 (superficial brevity isn't a very important goal and doesn't justify a whole new language), but #2 is much more of an "it depends"
I also know as a fact that programmers 100x my caliber have nevertheless written great large-scale software without types.
So I don't make generalizations on the human condition and just do what works for me!
But I wonder, if the compiler can get by without it, perhaps we can too? With a different mental model/abstraction, that simply does not need that information - not even by implication. If there is one, probably not easy to come up with.
Like kinematics omitting force (e.g. high school physics, x = x_0 + vt + 1/2at^2). https://wikipedia.org/wiki/Kinematics
I'm thinking of using Civet for an upcoming project, I specially want `do` expressions. Even with how much noise an IIFE (`(() => {doStuff(); return ...;})()`) introduces, it's such a natural idea to me that I end up using them very often.
But what makes me question the idea is having to learn a new syntax that is close enough to the JS I already know that I'm going to get confused constantly.
Why would I care about writing `export a, b from "./cool.js"` instead of `export { a, b } from "./cool.js"`? I don't mind those curly braces, I may actually like them a bit; I do very much mind the overhead of remembering these details when I change languages, and there's no way I can remove JS/TS from my life.
Finally, there's expressions like `value min ceiling max floor`. Is that readable at all? You have to actually read each word to know which are operators, which functions, which vars... It seems to me much worse than `max(min(value, ceiling), floor)` or a Lispy alternative like `(max (min value ceiling) floor).
Redundancy also helps when transmission is imperfect. And you do have imperfect transmission when writing code (typos), and even when reading (skimming text, missing a character).
CoffeScript makes every character count, especially punctuation. It's really, really easy to make a small typo in these. But CoffeeScript eschews redundancy, so the typo becomes another valid grammatical construction, with an entirely different meaning. At best, you get a cryptic translation error elsewhere. At worst, it gets accepted but works differently than you had intended.
APL has this property, too. But an APL program is very terse, you pay attention to every character in a short string of them. It does not feel like Javascript which is traditionally lax in the punctuation and whitespace department, catching you off guard.
CoffeeScript was an interesting experiment, but I'd say its result is negative.
Sadly, with Steve Klabnik's withdrawal from the core Team, the current maintainers are on a path to repeat these mistakes.
Do you recall specific RFCs that are leaning in this direction?
A good example would be the behavior of the tilde operator. Another would be the current drafting process of keyword generics.
[0] https://github.com/edemaine
[1] https://www.youtube.com/playlist?list=PLUl4u3cNGP61Oq3tWYp6V...
[1] https://civet.dev/cheatsheet#variable-declaration
Or just curse me for keeping the dream of CoffeeScript alive :P
Whenever I saw coffeescript I just felt like the developers fancied a change for change sake and doesn't have real problems to solve.
It's clever though to create a new syntax, I'll give you that
- Rest in any position
- Dedented block strings
- Default to const in for loops
- Lack of -> function shortand
- Everything is an expression
- Implicit returns
- Chained comparisons
- Nested unbraced object literals
- Optional trailing commas in arrays
- Optional trailing commas in objects
- x.map .name function shorthand
Each one is a fairly minor concern but they all add up. I'm sure different people will have a different list of favorite features as well. One of my goals in creating Civet was to fix my top 100 issues with TS syntax while being 99% backward compatible. The ultimate goal being: TS with my top 100 issues fixed will be the best language I have ever used.
I like to think I helped lead people away from CoffeeScript.
https://donatstudios.com/CoffeeScript-Madness
More info: https://civet.dev/cheatsheet#variable-declaration
Can this all not be done as experimental typescript though, rather than a new language?
The difficult part for TS/JS is they can't easily opt into some of the more whitespace/context sensitive features without breaking changes to existing code or forcing people to opt in with a "jsNext" directive or something.
I wouldn't use it in a team project subjecting my teammates to learn "yet another thing" but can see myself using this for personal projects
[0] https://medium.com/hackernoon/the-first-typescript-demo-905e...
I think Civet would success better if it addressed those issues by making the syntax a bit more familiar and consistent.
Keep the python/ruby-like significant indentation and everything-is-expression approach, but add little more verbosity for clarity, for example:
Also, because CoffeeScript got so controversial reputation, I would not ride on its legacy. Just market Civet as "TypeScript with modern syntax".