specky-src
v0.0.21
Published
A powerful & flexible validation and conformation library for your JavaScript data and functions.
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Specky 👓
What is Specky?
Specky is a powerful & flexible library for JavaScript data validation, conformation, runtime-checking & property testing.
Specky enables you to:
- Build your data validation rules (specs) with simple predicate functions and composable logical expressions such as
and
,any
,shape
,collOf
,mapOf
as well as regex-like spec-composing operators such as concatenation(cat
),or
(|
),oneOrMore
(+
),zeroOrMore
(*
),zeroOrOne
(?
), etc - Validate and make assertions about your data with your specs
- Define complex specs for your functions' arguments, return value and the relation between them
- Conform (parse) your data/arguments for writing simpler code
Why Specky
Specky's goal is to provide the defining contract/protocol for your JS app. By writing a set of specs for your app once, you can get a lot of leverage out your effort, including
- Clearly-defined expectations for your app's functions and data structures
- Runtime validation for your data and functions (compile-time analysis may be possible in the future)
- Advanced data conformation (parsing) that simplifies your data processing code
- Automatic generation of API documentation for your app (via specky-docgen, WIP)
- Automatic generation of property-based test cases for your functions (via specky-gen, WIP)
- A safety harness with highly flexible type and behavior constraints, which is even more powerful than typed languages such as TypeScript
Project status
- Alpha. API's are subject to change and improvement based on feedback.
Quick Examples
Regex Ops
var MySpec = S.cat( S.oneOrMore(S.isNum), S.zeroOrOne( S.isObj ) );
S.isValid(MySpec, [ 1, 2, 3, { a: 1 } ]); // true
S.isValid(MySpec, [ 1, 2, 3 ]); // true
S.isValid(MySpec, [ 1, 2, 3, null ]); // false: the trailing element does not satisfy our spec
S.isValid(MySpec, [ 1, 2, 3, { a: 1 }, { } ]); // false: extra trailing element
S.conform(MySpec, [ 1, 2, 3, null ]);
// returns a "Problem" object with detailed explanation why validation failed
// Next, we redefine the above concatenation spec, with a label for each part.
var MyLabelledSpec = S.cat(
"myNumbers", S.oneOrMore(S.isNum),
"myObject", S.zeroOrOne( S.isObj )
);
S
MyLabelledSpec.conform( [ 1, 2, 3, { a: 1 } ] );
// returns { myNumbers: [ 1, 2, 3 ], myObject: { a: 1 } }
Spec Registry
// Specky comes with an application-wide global spec registry.
S.set("myApp/myLabelledSpec", MyLabelledSpec); // defines a spec in the registry
S("myApp/myLabelledSpec"); // returns the same spec above (MyLabelledSpec)
Object Shapes
// Before we continue: let's first define a predicate function
// (which is just a function that returns either true or false).
function startsWithBar( str ) {
return str.indexOf("bar") === 0;
}
// Now let's specify a "shape" for our objects.
var MyObjSpec = S.shape({
// alternatively, you can simply provide an array of strings
// as required keys e.g. [ "propertyA", "propertyB",... ]
required: {
// define a single key with value spec
foo: S.isBool,
// ...or define a group of properties whose keys satisfy the first spec (e.g. startsWithBar),
// and whose value satisfies the second (e.g. S.any)
bars: [ startsWithBar, S.any ]
},
optional: {
// you can also arbitrarily compose new specs from registered specs
myObj: S("myApp/myLabelledSpec")
}
});
// With the above spec defined, now let's try shape conformation.
S.conform( MyObjSpec, { foo: true, bar1: 1, bar2: 2, bar3: 3 });
// returns { foo: true, bars: { bar1: 1, bar2: 2, bar3: 3 } }
// (Notice how all object keys that begin with "bar" are now grouped under a single value "bars").
Function Specs
// Now onward to function specs.
var MyFnSpec = S.fspec({
args: MyLabelledSpec , // reusing MySpec from above
ret: S.isBool,
});
// Next we write our function.
function __myFunction(num1, num2, num3, myObj) {
// doesn't do much; just returns true for now.
return true;
};
// Then "instrument"(wrap/protect) this function with our function spec.
var myProtectedFn = MyFnSpec.instrument(__myFunction);
// We can now try our new protected function.
myProtectedFn(1, 2, 3, { a: true }); // returns true
myProtectedFn(1, 2, 3, 'hello'); // Throws a "Problem" due to mismatched argument per our fspec definition.
// Finally, let's build a function that checks if the sum of all numbers are odd
// by taking advantage of Specky's function argument conformation.
// Step 1: we write a "barebone" function with our core logic,
// which consumes the conformed arguments as a single object.
function __sumIsOdd( conformedArgs ) {
// (Here "conformedArgs" stores the value of the conformed object
// as we illustrated above.)
var myNumbers = conformedArgs.myNumbers; // e.g. [ 1, 2, 3 ]
var myObject = conformedArgs.myObject; // e.g. { a: 1 }
// (or simply { myNumbers, myObject } with ES6 destructring)
// Get the sum
var sum = myNumbers.reduce( function(c,s) { return s + c; }, 0 );
// Returns whether the sum is odd
return sum % 2 === 1;
}
// Step 2: wrap the barebone function with S.instrumentConformed()
var sumIsOdd = MyFnSpec.instrumentConformed(__sumIsOdd);
// Let's try our new super function!
sumIsOdd( 1, 1, 1 ); // true: sum is odd
sumIsOdd( 2, 2, 2 ); // false: sum is even
sumIsOdd( 1, 1, 1, {} ); // true (remember the optional trailing isObj we defined above?)
sumIsOdd( 2, 2, 2, null ); // throws a "Problem" because arguments do not conform
sumIsOdd( 2, 2, 2, {}, {} ); // same as above
For more advanced features and concepts, refer to documentation site.
Try It Yourself
Usage
For Node.js/browserify/webpack:
npm install specky
For browser:
Include Specky script tag in <head>
or <body>
tag of your HTML:
<script src="//unpkg.com/specky@latest/dist/specky.js"></script>
The variable S
will be exposed in the global environment.
Documentation
Documentation website: http://specky.js.org
Detailed Examples
In addition, there are plenty of examples in test files under /test
.
Performance & Reliability
- Specky is mostly self-contained and has very few external dependencies.
- Specky uses NFA algorithm for regex parsing, which means it's generally pretty fast in handling complex regex operations.
- Specky's current implementation is optimizated in such a way that it avoids running into long chains of recursive function calls for path searching or making redundant path visits.
Subprojects
specky-docgen
: Automatic documentation generation based on function specsspecky-gen
: Generative/Property-based Testingspecky-react
: More robust props validation for your React apps. A replacement forReact.PropTypes
Run tests
In Dev mode
npm run dev
In CI mode
npm run test
Why not just use ClojureScript + cljs.spec?
The goal for Specky is to provide JavaScript developers as much the benefit as possible derived from the spec system.
Specky API for the most part is kept similar to clojure.spec, except for some differences related to usability and JavaScript-specific conventions.
(Clojure is a wonderful language. If you can use Clojure/ClojureScript, by all means go ahead and try cljs.spec.)
Credit
- Both origin of the idea and API are heavily inspired by Rich Hickey's clojure.spec
- NFA spec matching inspired by Thompson NFA regex matching algorithm, and is based on afader's implementation