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Powerful context-based expression parser and evaluator in C# using JEXL (Javascript Expression Language) expressions

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JexlNet

Powerful context-based expression parser and evaluator in C# using JEXL (Javascript Expression Language) expressions.

NOTE: This library handles the JEXL from TomFrost's JEXL library. It does NOT handle the similarly-named Apache Commons JEXL language.

Quick start

Expressions can be evaluated synchronously or asynchronously by using the Eval and EvalAsync methods respectively. Context should be a JsonObject (or a string which will internally be converted to a JsonObject). The output is always a JsonNode (can be JsonObject, JsonArray or JsonValue).

The Grammar can be expanded by adding new operators, functions and transforms.

// Define context as a JsonObject (System.Text.Json)
var context = new JsonObject {
    { "name", new JsonObject {
        { "first", "Sterling" },
        { "last", "Archer" }
    }},
    { "assoc", new JsonArray {
        new JsonObject {
            { "first", "Lana" },
            { "last", "Kane" }
        },
        new JsonObject {
            { "first", "Cyril" },
            { "last", "Figgis" }
        },
        new JsonObject {
            { "first", "Pam" },
            { "last", "Poovey" }
        }
    }},
    { "age", 36 }
};

// Or as a JSON string
string context = 
@"{
    ""name"": {
        ""first"": ""Sterling"",
        ""last"": ""Archer""
    },
    ""assoc"": [
        {
            ""first"": ""Lana"",
            ""last"": ""Kane""
        },
        {
            ""first"": ""Cyril"",
            ""last"": ""Figgis""
        },
        {
            ""first"": ""Pam"",
            ""last"": ""Poovey""
        }
    ],
    ""age"": 36
}";

// Initialize Jexl
var jexl = new Jexl();

// Use it with asynchronously or synchronously:

// Filter an array asynchronously...
await jexl.EvalAsync(@"assoc[.first == ""Lana""].last", context);
// Kane

// Or synchronously!
jexl.Eval(@"assoc[.first == ""Lana""].last", context);
// Kane

// Do math
await jexl.Eval(@"age * (3 - 1)", context);
// 72

// Concatenate
await jexl.EvalAsync(@"name.first + "" "" + name[""la"" + ""st""]", context);
// "Sterling Archer"

// Compound
await jexl.EvalAsync(
  'assoc[.last == "Figgis"].first == "Cyril" && assoc[.last == "Poovey"].first == "Pam"',
  context
)
// true

// Use array indexes and return objects
await jexl.EvalAsync(@"assoc[1]", context);
// new JsonObject {
//             { "first", "Cyril" },
//             { "last", "Figgis" }
//         }
// 

// Use conditional logic
await jexl.EvalAsync(@"age > 62 ? ""retired"" : ""working""", context);
// "working"

// Transform
jexl.Grammar.AddTransform("upper", (JsonValue val) => val?.ToString().ToUpper());
await jexl.EvalAsync(@"""duchess""|upper + "" "" + name.last|upper", context);
// "DUCHESS ARCHER"

// Transform asynchronously, with arguments
jexl.Grammar.AddTransform("getStat", async (JsonNode[] args) => await DbSelectByLastName(args[0], args[1]));
await jexl.EvalAsync(@"name.last|getStat(""weight"")", context);
// Output: 184

// Functions too, sync or async, args or no args
jexl.Grammar.AddFunction("getOldestAgent", GetOldestAgent);
await jexl.EvalAsync(@"age == getOldestAgent().age", context);
// false

// Add your own (a)synchronous operators
// Here's a case-insensitive string equality
jexl.Grammar.AddBinaryOperator("_=", 20, (JsonNode[] args) => args[0]?.ToString().ToLower() == args[1]?.ToString().ToLower());
await jexl.EvalAsync(@"""Guest"" _= ""gUeSt""");
// true

// Compile your expression once, evaluate many times!
const { expr } = jexl
var danger = jexl.CreateExpression(@"""Danger "" + place");
await danger.EvalAsync(new JsonObject { { "place", "Zone" } }); // Danger zone
await danger.EvalAsync(new JsonObject { { "place", "ZONE!!!" } }); // Danger ZONE!!! (Doesn't recompile the expression!)

Play with it

Installation

Install from NuGet:

    Install-Package JexlNet

Add using statement:

    using JexlNet;

And use it:

var jexl = new Jexl();
var result = jexl.Eval("1 + 1");

Async vs Sync: Which to use

There is little performance difference between EvalAsync and Eval. Both support async functions and transforms. The only difference is that EvalAsync returns a Task<JsonNode> and Eval returns a JsonNode.

All the details

Unary Operators

Operation Symbol
Negate !

Binary Operators

Operation Symbol
Add, Concat +
Subtract -
Multiply *
Divide /
Divide and floor //
Modulus %
Power of ^
Logical AND &&
Logical OR ||

Comparisons

Comparison Symbol
Equal ==
Not equal !=
Greater than >
Greater than or equal >=
Less than <
Less than or equal <=
Element in array or string in

A note about in

The in operator can be used to check for a substring: "Cad" in "Ron Cadillac", and it can be used to check for an array element: "coarse" in ['fine', 'medium', 'coarse']. However, the == operator is used behind-the-scenes to search arrays, so it should not be used with arrays of objects. The following expression returns false: {a: 'b'} in [{a: 'b'}].

Ternary operator

Conditional expressions check to see if the first segment evaluates to a truthy value. If so, the consequent segment is evaluated. Otherwise, the alternate is. If the consequent section is missing, the test result itself will be used instead.

Expression Result
"" ? "Full" : "Empty" Empty
"foo" in "foobar" ? "Yes" : "No" Yes
{agent: "Archer"}.agent ?: "Kane" Archer

Native Types

Type Examples
Booleans true, false
Strings "Hello "user"", 'Hey there!'
Numerics 6, -7.2, 5, -3.14159
Objects {hello: "world!"}
Arrays ['hello', 'world!']

Groups

Parentheses work just how you'd expect them to:

Expression Result
(83 + 1) / 2 42
1 < 3 && (4 > 2 || 2 > 4) true

Identifiers

Access variables in the context object by just typing their name. Objects can be traversed with dot notation, or by using brackets to traverse to a dynamic property name.

Example context:

var context = new JsonObject 
{
    { "name", new JsonObject {
        { "first", "Malory" },
        { "last", "Archer" }
    }},
    { "exes", new List<string> {
        "Nikolai Jakov",
        "Len Trexler",
        "Burt Reynolds"
    }},
    { "lastEx", 2 }
};
Expression Result
name.first Malory
name['la' + 'st'] Archer
exes[2] Burt Reynolds
exes[lastEx - 1] Len Trexler

Collections

Collections, or arrays of objects, can be filtered by including a filter expression in brackets. Properties of each collection can be referenced by prefixing them with a leading dot. The result will be a list of the objects for which the filter expression resulted in a truthy value.

Example context:

var context = new JsonObject
{
    {
        "employees", new List<dynamic>
        {
            new JsonObject { { "first", "Sterling" }, { "last", "Archer" }, { "age", 36 } },
            new JsonObject { { "first", "Malory" }, { "last", "Archer" }, { "age", 75 } },
            new JsonObject { { "first", "Lana" }, { "last", "Kane" }, { "age", 33 } },
            new JsonObject { { "first", "Cyril" }, { "last", "Figgis" }, { "age", 45 } },
            new JsonObject { { "first", "Cheryl" }, { "last", "Tunt" }, { "age", 28 } }
        }
    },
    { "retireAge", 62 }
};
Expression Result
employees[.first == 'Sterling'] [{first: 'Sterling', last: 'Archer', age: 36}]
employees[.age >= 30 && .age < 40] [{first: 'Sterling', last: 'Archer', age: 36},{first: 'Lana', last: 'Kane', age: 33}]
employees[.age >= 30 && .age < 40][.age < 35] [{first: 'Lana', last: 'Kane', age: 33}]
employees[.last == 'Tu' + 'nt'][0].first Cheryl
employees[.last == 'Tu' + 'nt'].first Cheryl
employees[.age >= retireAge][0].first Malory
employees[.age >= retireAge].first Malory

Note about collection filters

The collection filter returns a filtered collection, but if you add a dot and identifier after the filter, it will return the first matching object's property. If you want to return a collection of properties, use the map transform in the Extended Grammar.

Transforms

The power of Jexl is in transforming data, synchronously or asynchronously. Transform functions take one argument or an array or list of more arguments. The first argument is the value to be transformed, and the rest are any other arguments passed to the transform in the expression. They must return either the transformed value, or a Promise that resolves with the transformed value. Add them with jexl.AddTransform(name, function). Arguments can be JsonNode or JsonNode[]. In case of enumerables the first element is the value to be transformed and the rest are the arguments. It is also possible to use a first JsonNode argument as the value to be transformed and the rest as the arguments.

jexl.Grammar.AddTransform("lower", (JsonNode val) => val?.ToString().ToLower());
jexl.Grammar.AddTransform("split", (JsonNode[] args) => new JsonArray((args[0]?.ToString().Split(args[1]?.ToString()) ?? []).Select(x => (JsonNode)x).ToArray()));
jexl.Grammar.AddTransform("split", (JsonNode arg0, JsonNode[] args) => new JsonArray((arg0?.ToString().Split(args[0]?.ToString()) ?? []).Select(x => (JsonNode)x).ToArray()));
Expression Result
"Pam Poovey"|lower|split' ' poovey
"password==guest"|split('=' + '=') ['password', 'guest']

Many examples can be found in the Extended Grammar code and tests.

Functions

While Transforms are the preferred way to change one value into another value, Jexl also allows top-level expression functions to be defined. Use these to provide access to functions that either don't require an input, or require multiple equally-important inputs. They can be added with jexl.AddFunction(name, function). Like transforms, functions can return a value, or a Promise that resolves to the resulting value. For functions, arguments are not required, but if they are defined, they must be JsonNode or JsonNode[].

jexl.Grammar.AddFunction("getTrue", () => true);
jexl.Grammar.AddFunction("min", (JsonNode[] args) => args.Select(x => x?.AsValue().ToDecimal()).Min());
jexl.Grammar.AddFunction("expensiveQuery", Db.RunExpensiveQuery);
Expression Result
false
min(4, 2, 19) 2
counts.missions || expensiveQuery() Query only runs if needed

Many examples can be found in the Extended Grammar code and tests.

Extended Grammar

By installing the JexlNet.ExtendedGrammar package, you get access to a large number of additional builtin functions and transforms.

Install from NuGet:

    Install-Package JexlNet.ExtendedGrammar

Add using statement and use extended grammar instead of default grammar:

    using JexlNet;
    using JexlNet.ExtendedGrammar;
    // Initialize Jexl with extended grammar
    var jexl = new Jexl(new ExtendedGrammar());

See the Extended Grammar code for a list of all the builtin functions and transforms and the Extended Grammar tests for examples of how to use the extended grammar.

Other implementations

  • Jexl - The original JavaScript implementation of JEXL.
  • jexl-rs - A Rust-based JEXL parser and evaluator.
  • PyJEXL - A Python-based JEXL parser and evaluator.

License

JexlNet is licensed under the MIT license. Please see LICENSE for full details.

Credits

This library is a port of TomFrost's JEXL library so all credit goes to the author and the contributors of that library.

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Powerful context-based expression parser and evaluator in C# using JEXL (Javascript Expression Language) expressions

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