Ahmadi programming language is a language under development. This language is like high-level programming languages used today and it is a interpreted language. APL is also dynamically typed language. At this point only support structured and functional paradigm.
Warning
Do not use this language in your projects. This language is for fun now :)
# Clone APL source code.
git clone https://github.com/AliiAhmadi/APL.gitNavigate to APL directory and run tests.
go test ./... -vNow compile source and use executable file.
go build -o APLNow is the time to use it and doing some evaluation:
Ahmadi programming language - Copyright (c) 2023 Ali Ahmadi
APL>> In APL we can define a new variable of any type with def keyword(even functions and closures - in following):
APL>> def age = 20;
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APL>> def name = "Ali";
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APL>> As you know to see value of a variable just type its identifier:
APL>> age
20
APL>> name
Ali
APL>> APL also support numerical calculations and most important operations will work with values or with identifiers (- / * +):
APL>> 2 * 12
24
APL>> 56 / 7
8
APL>> def x = 100;
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APL>> def y = 20;
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APL>> x + y
120
APL>> x * y
2000
APL>> x - y
80
APL>> y - x
-80
APL>> You can define your array and map with def keyword in APL and use indexing like other programming language to access items:
APL>> def arr = [100, 300, 200, 500];
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APL>> arr[0];
100
APL>> You can define multidimensional arrays:
APL>> def first = [[1, 2]];
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APL>> def second = [[4, 16], [5, 25]];
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APL>> def result = (first[0][1] * second[1][0]) + second[0][0];
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APL>> result
14
APL>> As you can see should use parentheses to specify precedence of expressions (by default parser will have precedence like below):
| operations |
|---|
| Index |
| Function call |
| Prefix |
| Product |
| Sum |
| Less | Greater |
| Equality |
Now lets work with map data type in APL and also combine mutiple string(concatenating):
APL>> def mp = {"name": "Ali", "family": "Ahmadi", "age": 20, "country": "IR."};
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APL>> mp["name"]
Ali
APL>> mp["age"]
20
APL>> mp["name"] + " " + mp["family"] + " from " + mp["country"]
Ali Ahmadi from IR.
APL>> Now lets take a look at functions and closures in APL. Note that in APL you can write nested functions. In APL functions will define with fun keyword:
APL>> def adder = fun(x, y) { return x + y; };
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APL>> adder(100, 23);
123
APL>> Also you can return a closure from a function and store it in a variable:
APL>> def outer_function = fun() { return fun() { return "this is from inner function"; }; };
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APL>> def inner_function = outer_function();
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APL>> inner_function();
this is from inner function
APL>> If you want to see structure of a object in APL can write it down simply and it will printed:
APL>> def arr = [1, 2, 3, 4, 5];
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APL>> arr
[1, 2, 3, 4, 5]
APL>> APL>> def mp = {"name":"APL", "version":"1.0.0"};
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APL>> mp
{name: APL, version: 1.0.0}
APL>> APL>> true
true
APL>> false
false
APL>> APL>> def adder = fun(x, y, z) { return x + y + z; };
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APL>> adder
fun(x, y, z) {
return ((x + y) + z);
}
APL>> APL>> def ad_mp = {"func": fun(x, y) { return x * y; }};
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APL>> ad_mp
{func: fun(x, y) {
return (x * y);
}}
APL>> ad_mp["func"](12, 13);
156
APL>> APL>> def x = 18;
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APL>> x == 18
true
APL>> x != 18
false
APL>>