8bdd6e00e8
&v = (v, 1).sum might fail if two threads do it at the same time or something, so you can now lock the reference to ensure no other thread messes with your data while you update its value |
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| .github/workflows | ||
| examples | ||
| mers | ||
| mers_lib | ||
| old | ||
| .gitignore | ||
| README.md | ||
mers
Mers is a high-level programming language. It is designed to be safe (it doesn't crash at runtime) and as simple as possible.
what makes it special
Simplicity
Mers is simple. There are only few expressions:
- Values (
1,"my string", ...) - Blocks (
{}) - Tuples (
()) - Assignments (
=) - Variable initializations (
:=) - Variables (
my_var,&my_var) - If statements (
if <condition> <then> [else <else>]) - Functions (
arg -> <do something>) - Function calls
arg.function
Everything else is implemented as a function.
Types and Safety
Mers is built around a type-system where a value could be one of multiple types.
x := if condition { 12 } else { "something went wrong" }
In mers, the compiler tracks all the types in your program,
and it will catch every possible crash before the program even runs:
If we tried to use x as an int, the compiler would complain since it might be a string, so this does not compile:
list := (1, 2, if true 3 else "not an int")
list.sum.println
Type-safety for functions is different from what you might expect. You don't need to tell mers what type your function's argument has - you just use it however you want as if mers was a dynamically typed language:
sum_doubled := iter -> {
one := iter.sum
(one, one).sum
}
(1, 2, 3).sum_doubled.println
We could try to use the function improperly by passing a string instead of an int:
(1, 2, "3").sum_doubled.println
But mers will catch this and show an error, because the call to sum inside of sum_doubled would fail.
Error Handling
Errors in mers are normal values.
For example, ("ls", ("/")).run_command has the return type ({Int/()}, String, String)/RunCommandError.
This means it either returns the result of the command (exit code, stdout, stderr) or an error (a value of type RunCommandError).
So, if we want to print the programs stdout, we could try
(s, stdout, stderr) := ("ls", ("/")).run_command
stdout.println
But if we encountered a RunCommandError, mers wouldn't be able to assign the value to (s, stdout, stderr), so this doesn't compile.
Instead, we need to handle the error case, using the try function:
("ls", ("/")).run_command.try((
(s, stdout, stderr) -> stdout.println,
error -> error.println,
))
docs
docs will be available in some time. for now, check mers_lib/src/program/configs/*