# One One is a statically typed language inspired by C, V, and go. The compiler is still in development, and may present issues when compiling One code. Note that you need to have eitehr gcc or clang installed to compile One code, as the compiler produces C code that later gets compiled to an executable. --- ## Syntax One's syntax rules are meant to be easily understandable and, more importantly, never ambiguous. --- ### Variables In One, variables are declared with the `let` keyword. The syntax will look something like this ``` let x int = 6; ``` You can also declare a constant using the `const` keyword instead. ``` const x int = 9; ``` --- ### Scopes Like in most languages, variables in One are only limited to their scope. You can access a variable from a deeper nested scope, but not the opposite: ``` let x int = 5; if 5 > 0 { x = 2; } ``` is valid code, while ``` if 3 < 10 { let y int = 288; } y = 10; ``` isn't valid, as the variable `y` cannot be access outside its scope. You can also create scopes by wrapping statements in braces. This lets you declare variables with the same name in different scopes, for example: ``` let x int = 3 { let y real = 5.5; print(y); } print("y is now undefined again here"); { let y real = 0.2; print(y); } ``` --- ### Primitive Types As of now, One has a total of 4 primitive types: `void`. `int`, `real`, `bool` and `string`. There are no methods for types, but you can cast a variable to one of them with this syntax ``` let myreal real = 1.5; let myint int = int(myreal); ``` Right now, strings are implemented as direct counterparts to `char*` in C, which is what they get translated to during compilation. Comparisons and operations on strings are still work in progress and quite buggy, but you are free to use string literals for prints or simple variable declarations with no issues. Variables cannot be declared with type `void`. --- ### Functions Functions in One are very similar to what you see in languages such as go. You declare a function called `foo` which takes an `int` and returns a `bool` with the following syntax: ``` fn foo(myarg int) bool { return myarg < 10; } ``` If a function is not expected to return anything, the return type must be `void`. Calling a function looks like this: ``` let b bool = foo(9); ``` --- ### Classes Right now, Classes in One are very similar to C structs. They are declared using the `class` keyword followed by the class name and a block with a list of class members. Defining a class User might look something like this: ``` class User { age int name string mail_verified bool } ``` Creating an instance of a class is very simple, just write the name of the class followed by braces and a list of initial values for the class members. ``` let myuser User = User{17, "uan", false} ``` Class types can be used anywhere primitive types can, such as function arguments or other classes' members. --- ### Print Printing is still a work in progress feature, but right now you can print any primitive and non-primitive type. The 'print' built-in function accepts a variable number of arguments, and will print allf of them separated by a space. ``` let x int = 144; print(x, 240); ``` produces this output: ``` 144 240 ``` class-type variables will be printed with special formatting which, if we takes the User class and variable we defined earlier, will look like this. ``` User { age: 17 name: uan mail_verified: false } ``` ### Control Flow Control flow in One is still quite limited, as the `for` keyword has not been implemented yet. `if`, `else` and `elif` statements are fully implemented and are written like this. ``` let x int = 17; if x >= 100 { print(x, "is greater than 100"); } elif x >= 10 { print(x, "is greater than 10"): } else { print(x, "is less than 10"); } ``` Using parentheses around the condition isn't necessary. ### The main function It is important that every One program has an entry point called `main`. The 'main' function must always return `int` and does not accept any arguments. ``` fn main() int { print("my code here"); } ``` It isn't necessary to explicitly insert a `return` statement in the main function. Returning from the main function will exit the program with an exit code equal to the returned integer.