Next is a familiar, minimal, fast programming language. It has a REPL, and anything that can be run as a script, can be run inside the REPL itself.
Next has a familiar C like syntax, and aims to achieve Python like minimalism, while performing much better than CPython.
- Hello, world!
print("Hello, world!")
- Branching
a = 2
// curly braces are mandatory
if(a < 3) {
print("Inside if!")
} else if(a > 4) {
print("Inside else if!")
} else {
print("Inside else!")
}
- Looping
a = 10
while(a > 0) {
print("A is ", a--, "\n")
}
for(a = 0;a < 10; a++) {
print("A is ", a, "\n")
}
do {
print("A is ", a--, "\n")
} while(a > 0)
b = 5
while(a < 10 and b < 10) {
a++
b++
}
while(a > 0 or b > 0) {
a--
b--
}
- Functions
fn bark(x) {
print("Barked: ", x)
}
// Next supports function overloading
fn bark(x, y) {
print(x, " barked: ", y)
}
// Functions can return values, using 'ret'
fn decrease(x) {
ret x - 1
}
bark("Hi") // Barked: Hi
bark("Subhranil", "Hello") // Subhranil barked: Hello
print(decrease(6)) // 5
Functions are first class objects in Next, so you can pass them like values.
To refer a function, use name@argument_count.
v = bark@1
v("Cool!") // Barked: Cool!
v = bark@2
v("Mukherjee", "Dope") // Mukherjee barked: Dope
fn lamba(x, y) {
x(y)
}
lamba(bark@1, "Cool!") // Barked: Cool!
Any kind of argument mismatch will be reported as an exception.
- Exceptions
fn might(x) {
if(x < 2) {
throw runtime_error("x must be greater than 2!")
} else {
ret x - 1
}
}
try {
might(1)
} catch(runtime_error e) {
print("Error caught!")
}
- Classes
class Foo {
priv: // access modifier, default private
x // member declaration
fn private_bar() {
print("private_bar called: ", x, "\n")
}
pub:
y // instance member
static z // static member
new(a, b) {
x = a
y = b
z = 0
}
fn public_bar() {
print("public_bar called: ", y, "\n")
z = y
}
static fn public_static_bar() {
// can access only static method and members
print("public_static_bar called: ", z, "\n")
}
}
obj = Foo(2, 3)
obj.public_bar() // public_bar called: 3
Foo.public_bar() // runtime_error: no such public method found in Foo metaclass
obj.public_static_bar() // public_static_bar called: 3
Foo.public_static_bar() // public_static_bar called: 3
print(obj.y) // 3
print(Foo.y) // runtime_error: no such public member found in Foo metaclass
print(obj.z) // 3
print(Foo.z) // 3
obj.private_bar() // runtime_error: no such public method found!
obj.x // runtime_error: no such public member found!
// public methods from inside of a class can be referenced too
f = Foo.public_bar@0 // class bound, the first argument while calling f must
// be an instance of Foo
g = obj.public_bar@0 // object bound, can be called normally
f() // error: expected first argument to be an instance of Foo
f(obj) // public_bar called: 3
g(obj) // error: invalid arity
g() // public_bar called: 3
- Built-in Data Structures
// range
for(x in range(5)) {
print(x, " ") // 0 1 2 3 4
}
// array
arr = [2, 3, 4]
// iterating
// 1. By index
i = 0
j = arr.size()
while(i < j) {
print(arr[i++], " ")
}
// 2. Using iterator protocol
for(a in arr) {
print(a, " ")
}
// use insert() or arr[size+1] = value for insertion
// tuple
// tuples are immutable arrays
tup = tuple(3) // tuple of size 3
tup[0] = 2
tup[1] = 3
tup[2] = 4
// tuples support both index access and iterators like arrays
// set
s = set()
s.insert("a")
s.insert(2)
print(s.has(2.32)) // false
print(s.size()) // 2
s.remove("a")
s.clear() // clear the elements
// map
m = {"hello": "world!",
2: true,
bark@0: "cool!"}
k = m.keys() // returns an array
for(key in k) {
print(m[key], "\n")
}
- Iterator Protocol
// to make your class participate in for-in statements, do the following:
// 1. Have a public method named 'iterate()' which returns the iterator object
// 2. In the iterator class, have a public method named 'next()', which returns
// the next value of the iterator.
// 3. In the iterator class, have a public member named 'has_next', which is
// 'true' while the iterator has a next value to produce
class ColorIterator {
priv:
x
pub:
has_next
new(a) {
x = a
i = 0
has_next = i < x.size()
}
fn next() {
v = x[i++]
has_next = i < x.size()
ret v
}
}
class Colors {
priv:
colors
pub:
new() {
colors = ["red", "green", "blue"]
}
fn iterate() {
ret ColorIterator(colors)
}
}
c = Colors()
for(color in c) {
print(color, " ") // red green blue
}
- Fibers
// Next supports cooperative scheduling with fibers
fn longJob(x) {
while(x--) {
yield(x)
}
}
f = fiber(longJob@1, 10000) // 10000 is passed as argument to longJob
// fibers support iterator protocol
for(value in f) {
print(value, " ") // 9999 9998 9997
}
- Imports
import mymodule // mymodule.n must be present in current directory
mymodule.hello("2")
- Inheritance
class foo {
pub:
new() {}
fn hello() {
print("hello from foo!")
}
}
class bar is foo {
pub:
new() {}
fn hello() {
super.hello()
println("hello from bar!")
}
}
o = bar()
o.hello() // hello from foo! hello from bar!
$ git clone https://github.com/iamsubhranil/Next
$ cd Next
$ make cgoto -j4
To run benchmarks, do
$ make benchmark
To run tests, do
$ make tests
To build Next with profile guided optimizations, do
$ make clean && make pgo -j4
A ray tracer written in Next (tests/benchmark/renderer.n)
Any and all contributions are welcome!