blork

Blork! Mini runtime type checking in Javascript

A mini type checker for locking down the external edges of your code. Mainly for use in modules when you don"t know who'll be using the code. Minimal boilerplate code keeps your functions hyper readable and lets them be their beautiful minimal best selves (...or something?)

Blork is fully unit tested and 100% covered (if you're into that!). Heaps of love has been put into the niceness and consistency of error messages, so hopefully you'll enjoy that too.

Installation

npm install blork

Usage

check(): Check individual values

The check() function allows you to test that individual values correspond to a type, and throw a TypeError if not. This is primarily designed for checking function arguments but can be used for any purpose.

check() accepts four arguments:

1. value The value to check
2. type The type to check the value against (full reference list of types is available below)
3. prefix An optional string name/prefix for the value, which is prepended to any error message thrown to help debugging
4. error An optional custom error type to throw if the check fails

import { check } from "blork";

// Checks that pass.
check("Sally", "string"); // No error.
check("Sally", String); // No error.

// Checks that fail.
check("Sally", "number"); // Throws ValueError "Must be number (received "Sally")"
check("Sally", Boolean); // Throws ValueError "Must be true or false (received "Sally")"

// Checks that fail (with a prefix set).
check("Sally", "num", "name"); // Throws ValueError "name: Must be number (received "Sally")"
check(true, "str", "status"); // Throws ValueError "status: Must be string (received true)"

// Checks that fail (with a custom error thrown).
check(123, "str", "num", ReferenceError); // Throws ReferenceError "num: Must be string (received 123)"

Type modifiers

type will mostly be specified with a type string (a full list of string types is available below), and these string types can also be modified using other characters:

• Appending ? question mark to any type string makes it optional (which means it also allows undefined).
• Prepending a ! exclaimation mark to any type string makes it inverted (e.g. !string means anything except string).
• Multiple types can be combined with | and & for OR and AND conditions (optionally grouped with () parens to resolve ambiguity).
• Appending a + means non-empty (e.g. arr+ str+ means non-empty arrays and strings respectively).

// Optional types.
check(undefined, "number"); // Throws ValueError "Must be finite number (received undefined)"
check(undefined, "number?"); // No error.

// Note that null does not count as optional.
check(null, "number?"); // Throws ValueError "Must be finite number (received null)"

// Inverted types.
check(123, "!str"); // No error.
check(123, "!int"); // Throws ValueError "Must be not integer (received 123)"

// Combined OR types.
check(1234, "int | str"); // No error.
check(null, "int | str"); // Throws ValueError "Must be integer or string (received null)"

// Combined AND types.
check("abc", "string & !falsy"); // No error.
check("", "string & !falsy"); // Throws ValueError "Must be string and not falsy (received "")"

// Non-empty types.
check("abc", "str+"); // No error.
check("", "str+"); // Throws ValueError "Must be non-empty string (received "")"

// Size types.
check([1, 2, 3], "arr{2,4}"); // No error.
check([1], "arr{2,3}"); // Throws ValueError "Must be plain array (minimum 2) (maximum 3) (received [1])"
check([1, 3, 3, 4], "arr{,3}"); // Throws ValueError "Must be plain array (maximum 3) (received [1])"
check([1, 2], "arr{3,}"); // Throws ValueError "Must be plain array (minimum 2) (received [1])"

// Array types.
check([1, 2, 3], "num[]"); // No error.
check(["a", "b"], "num[]"); // Throws ValueError "Must be plain array containing finite number (received ["a", "b"])"

// Tuple types.
check([1, "a"], "[int, str]"); // No error.
check([1, false], "[int, str]"); // Throws ValueError "Must be plain array tuple containing integer, string (received [1, false])"

// Object types.
check({ a: 1 }, "{ camel: integer }"); // No error.
check({ "$": 1 }, "{ camel: integer }"); // Throws ValueError "Must be plain object with camelCase string keys containing integer (received { "$": 1 })"

// String literal types.
check("abc", "'abc'"); // No error.
check("def", "'abc'"); // Throws ValueError "Must be "abc" (received "def")"

// Number literal types.
check(1234, "1234"); // No error.
check(5678, "1234"); // Throws ValueError "Must be 1234 (received 5678)"

Checking objects and arrays

Blork can also perform deep checks on objects and arrays to ensure the schema is correct deeply. You can use literal arrays or literal objects with check() or args() to do so:

// Check object properties.
check({ name: "Sally" }, { name: "string" }); // No error.

// Check all array items.
check(["Sally", "John", "Sonia"], ["str"]); // No error.

// Check tuple-style array.
check([1029, "Sonia"], ["number", "string"]); // No error.

// Failing checks.
check({ name: "Sally" }, { name: "string" }); // No error.
check(["Sally", "John", "Sonia"], ["str"]); // No error.
check([1029, "Sonia"], ["number", "string"]); // No error.
check([1029, "Sonia", true], ["number", "string"]); // Throws ValueError: "Array: Too many array items (expected 2) (received 3)"

Arrays and objects can be deeply nested within each other and Blork will recursively check the schema all the way down:

// Deeply nested check (passes).
// Will return 1
check(
	[
		{ id: 1028, name: "Sally", status: [1, 2, 3] },
		{ id: 1062, name: "Bobby", status: [1, 2, 3] }
	],
	[
		{ id: Number, name: String, status: [Number] }
	]
);

// Deeply nested check (fails).
// Will throw ValueError "Array[1][status][2]: Must be number (received "not_a_number")"
check(
	[
		{ id: 1028, name: "Sally", status: [1, 2, 3] },
		{ id: 1062, name: "Bobby", status: [1, 2, "not_a_number"] }
	],
	[
		{ id: Number, name: String, status: [Number] }
	]
);

args(): Check function arguments

The primary use case of Blork is validating function input arguments. The args() function is provided for this purpose and can be passed four arguments:

1. arguments | The arguments object provided automatically to functions in Javascript
2. types | An array identifying the types for the arguments (list of types is available below)
3. prefix An optional string name/prefix for the value, which is prepended to any error message thrown to help debugging
4. error An optional custom error type to throw if the check fails

import { args } from "blork";

// An exported function other (untrusted) developers may use.
export default function myFunc(definitelyString, optionalNumber)
{
	// Check the args.
	args(arguments, ["string", "number?"]);

	// Rest of the function.
	return "It passed!";
}

// Call with good args.
myFunc("abc", 123); // Returns "It passed!"
myFunc("abc"); // Returns "It passed!"

// Call with invalid args.
myFunc(123); // Throws ValueError "myFunc(): arguments[0]: Must be string (received 123)"
myFunc("abc", "abc"); // Throws ValueError "myFunc(): arguments[1]: Must be number (received "abc")"
myFunc(); // Throws ValueError "myFunc(): arguments[0]: Must be string (received undefined)"
myFunc("abc", 123, true); // Throws ValueError "myFunc(): arguments: Too many arguments (expected 2) (received 3)"

assert(): Check a random true/false statement.

Check a random true/false statement using the assert() function. This allows you to make other assertions with a similar argument order to check(). This is mainly just syntactic sugar, but is neater than messy if (x) throw new X; type statements.

Takes up to four arguments:

1. assertion The true/false value that is the assertion.
2. description A description of the positive assertion. Must fit the phrase Must ${description}, e.g. "be unique" or "be equal to dog".
3. prefix An optional string name/prefix for the value, which is prepended to any error message thrown to help debugging
4. error An optional custom error type to throw if the check fails

import { assert } from "blork";

// Assertion that passes.
assert(isUnique(val1), "unique"); // Pass.

// Assertion that fails.
assert(isUnique(val2), "be unique"); // Throws ValueError "Must be unique"
assert(isUnique(val2), "be unique", "val2"); // Throws ValueError "val2: Must be unique"
assert(isUnique(val2), "be unique", "val2", ReferenceError); // Throws ReferenceError "val2: Must be unique"

add(): Add a custom checker type

Register your own checker using the add() function. This is great if 1) you're going to be applying the same check over and over, or 2) want to integrate your own checks with Blork's built-in types so your code looks clean.

add() accepts four arguments:

1. name The name of the custom checker (only kebab-case strings allowed).
2. checker A function that accepts a single argument, value, and returns true or false.
3. description A description of the type of value that's valid. Must fit the phrase Must be ${description}, e.g. "positive number" or "unique string". Defaults to name.
4. error=undefined A custom class that is thrown when this checker fails (can be [VALUES]_ class, not just classes extending Error). An error set with add() takes precedence for this checker over the error set through throws()`.

import { add, check } from "blork";

// Register your new checker.
add(
	// Name of checker.
	"catty",
	// Checker to validate a string containing "cat".
	(v) => typeof v === "string" && v.strToLower().indexOf("cat") >= 0,
	// Description of what the variable _should_ contain.
	// Gets shown in the error message.
	"string containing 'cat'"
);

// Passes.
check("That cat is having fun", "catty"); // No error.
check("That CAT is having fun", "catty"); // No error.

// Fails.
check("A dog sits on the chair", "catty"); // Throws ValueError "Must be string containing "cat" (received "A dog sits on the chair")"

// Combine a custom checkers with a built-in checker using `&` syntax.
// The value must pass both checks or an error will be thrown.
// This saves you replicating existing logic in your checker.
check("A CAT SAT ON THE MAT", "upper+ & catty"); // No error.
check("A DOG SAT ON THE MAT", "upper+ & catty"); // Throws ValueError "Must be non-empty uppercase string and string containing 'cat'"

import { add, args } from "blork";

// Use your checker to check function args.
function myFunc(str)
{
	// Validate the function's args!
	args(arguments, ["catty"]);

	// Big success.
	return "It passed!";
}

// Passes.
myFunc("That cat is chasing string"); // Returns "It passed!"

// Fails.
myFunc("A dog sits over there"); // Throws ValueError "myFunc(): arguments[1]: Must be string containing "cat" (received "A dog sits over there")"

throws(): Set a custom error constructor

To change the error object Blork throws when a type doesn't match, use the throws() function. It accepts a single argument a custom class (can be [VALUES]_ class, not just classes extending Error).

import { throws, check } from "blork";

// Make a custom error type for yourself.
class MyError extends Error {};

// Register your custom error type.
throws(MyError);

// Test a value.
check(true, "false"); // Throws MyError "Must be false (received true)"

blork(): Create an independent instance of Blork

To create an instance of Blork with an independent set of checkers (added with add()) and an independently set throws() error object, use the blork() function.

This functionality is provided so you can ensure multiple versions of Blork in submodules of the same project don't interfere with each other, even if they have been (possibly purposefully) deduped in npm. This is how you can ensure if you've set a custom error for a set of checks, that custom error type is always thrown.

import { blork } from "blork";

// Create a new set of functions from Blork.
const { check, args, add, throws } = blork();

// Set a new custom error on the new instance.
throws(class CustomError extends ValueError);

// Add a custom checker on the new instance.
add("mychecker", v => v === "abc", "'abc'");

// Try to use the custom checker.
check("123", "mychecker"); // Throws CustomChecker("Must be 'abc' (received '123')")

debug(): Debug any value as a string.

Blork exposes its debugger helper function debug(), which it uses to format error messages correctly. debug() accepts any argument and will return a clear string interpretation of the value.

debug() deals well with large and nested objects/arrays by inserting linebreaks and tabs if line length would be unreasonable. Output is also kept cleanish by only debugging 3 levels deep, truncating long strings, and not recursing into circular references.

import debug from "blork";

// Debug primitives.
debug(undefined); // Returns `undefined`
debug(null); // Returns `null`
debug(true); // Returns `true`
debug(false); // Returns `false`
debug(123); // Returns `123`
debug("abc"); // Returns `"abc"`
debug(Symbol("abc")); // Returns `Symbol("abc")`

// Debug functions.
debug(function dog() {}); // Returns `dog()`
debug(function() {}); // Returns `anonymous function()`

// Debug objects.
debug({}); // Returns `{}`
debug({ a: 123 }); // Returns `{ "a": 123 }`
debug(new Promise()); // Returns `Promise {}`
debug(new MyClass()); // Returns `MyClass {}`
debug(new class {}()); // Returns `anonymous class {}`

ValueError: Great debuggable error class

Internally, when there's a problem with a value, Blork will throw a ValueError. This value extends TypeError and standardises error message formats, so errors are consistent and provide the detail a developer should need to debug the issue error quickly and easily.

It accepts three values:

1. message The error message describing the issue with the value, e.g. "Must be string"
2. value The actual value that was incorrect so a debugged version of this value can appear in the error message, e.g. (received 123)
3. prefix A string prefix for the error that should identify the location the error occurred and the name of the value, e.g. "myFunction(): name"

import { ValueError } from "blork";

// Function that checks its argument.
function myFunc(name) {
	// If name isn't a string, throw a ValueError.
	// (This is essentially what check() does behind the scenes.)
	if (typeof name !== "string") throw new ValueError("Must be string", name, "myFunc(): name");
}

// Call with incorrect name.
myFunc(123); // Throws ValueError "myFunc(): name: Must be a string (received 123)"

Types

This section lists all types that are available in Blork. A number of different formats can be used for types:

• String types (e.g. "promise" and "integer")
• String modifiers that modify those string types (e.g. "?" and "!")
• Constant and constructor shorthand types (e.g. null and String)
• Object and Array literal types (e.g. {} and [])

String types

Type string	Description
primitive	Any primitive value (undefined, null, booleans, strings, finite numbers)
null	Value is null
undefined, undef, void	Value is undefined
defined, def	Value is not undefined
boolean, bool	Value is true or false
true	Value is true
false	Value is false
truthy	Any truthy values (i.e. == true)
falsy	Any falsy values (i.e. == false)
zero	Value is 0
one	Value is 1
nan	Value is NaN
number, num	Any numbers except NaN/Infinity (using Number.isFinite())
+number, +num,	Numbers more than or equal to zero
-number, -num	Numbers less than or equal to zero
integer, int	Integers (using Number.isInteger())
+integer, +int	Positive integers including zero
-integer, -int	Negative integers including zero
string, str	Any strings (using typeof)
alphabetic	alphabetic string (non-empty and alphabetic only)
numeric	numeric strings (non-empty and numerals 0-9 only)
alphanumeric	alphanumeric strings (non-empty and alphanumeric only)
lower	lowercase strings (non-empty and lowercase alphabetic only)
upper	UPPERCASE strings (non-empty and UPPERCASE alphabetic only)
camel	camelCase strings e.g. variable/function names (non-empty alphanumeric with lowercase first letter)
pascal	PascalCase strings e.g. class names (non-empty alphanumeric with uppercase first letter)
snake	snake_case strings (non-empty alphanumeric lowercase)
screaming	SCREAMING_SNAKE_CASE strings e.g. environment vars (non-empty uppercase alphanumeric)
kebab, slug	kebab-case strings e.g. URL slugs (non-empty alphanumeric lowercase)
train	Train-Case strings e.g. HTTP-Headers (non-empty with uppercase first letters)
function, func	Functions (using instanceof Function)
object, obj	Plain objects (using typeof && !null and constructor check)
objectlike	Any object-like object (using typeof && !null)
iterable	Objects with a Symbol.iterator method (that can be used with for..of loops)
circular	Objects with one or more circular references (use !circular to disallow circular references)
array, arr	Plain arrays (using instanceof Array and constructor check)
arraylike, arguments, args	Array-like objects, e.g. arguments (any object with numeric .length property, not just arrays)
map	Instances of Map
weakmap	Instances of WeakMap
set	Instances of Set
weakset	Instances of WeakSet
promise	Instances of Promise
date	Instances of Date
future	Instances of Date with a value in the future
past	Instances of Date with a value in the past
regex, regexp	Instances of RegExp (regular expressions)
symbol	Value is Symbol (using typeof)
empty	Value is empty (e.g. v.length === 0 (string/array), v.size === 0 (Map/Set), Object.keys(v) === 0 (objects), or !v (anything else)
any, mixed	Allow any value (transparently passes through with no error)
json, jsonable	Values that can be successfully converted to JSON and back again! (null, true, false, finite numbers, strings, plain objects, plain arrays)

String modifiers

String modifier types can be applied to any string type from the list above to modify that type's behaviour.

Type modifier	Description
(type)	Grouped type, e.g. `(num
type1 & type2	AND combined type, e.g. str & upper
`type1	type2`
type[]	Array type (all array entries must match type)
[type1, type2]	Tuple type (must match tuple exactly)
{ type }	Object value type (all own props must match type
{ keyType: type }	Object key:value type (keys and own props must match types)
!type	Inverted type (opposite is allowed), e.g. !str
type?	Optional type (allows type or undefined), e.g. str?
type+	Non-empty type, e.g. str+ or num[]+
type{1,2}	Size type, e.g. str{5} or arr{1,6} or map{12,} or set{,6}
"type"	String string type, e.g. "Dave" or 'Lucy'
1234	Number string type, e.g. 1234 or 123.456

Any string type can be made into an array of that type by appending [] brackets to the type reference. This means the check looks for a plain array whose contents only include the specified type.

// Pass.
check(["a", "b"], "str[]"); // No error.
check([1, 2, 3], "int[]"); // No error.
check([], "int[]"); // No error (empty is fine).
check([1], "int[]+"); // No error (non-empty).

// Fail.
check([1, 2], "str[]"); // Throws ValueError "Must be plain array containing: string (received [1, 2])"
check(["a"], "int[]"); // Throws ValueError "Must be plain array containing: integer (received ["a"])"
check([], "int[]+"); // Throws ValueError "Must be non-empty plain array containing: integer (received [])"

Array tuples can be specified by surrounding types in [] brackets.

// Pass.
check([true, false], "[bool, bool]") // No error.
check(["a", "b"], "[str, str]") // No error.
check([1, 2, 3], "[num, num, num]"); // No error.

// Fail.
check([true, true], "[str, str]") // Throws ValueError "Must be plain array tuple containing: string, string (received [true, true])"
check([true], "[bool, bool]") // Throws ValueError "Must be plain array tuple containing: boolean, boolean (received [true])"
check(["a", "b", "c"], "[str, str]") // Throws ValueError "Must be plain array tuple containing: string, string (received ["a", "b", "c"])"

Check for objects only containing strings of a specified type by surrounding the type in {} braces. This means the check looks for a plain object whose contents only include the specified type (whitespace is optional).

// Pass.
check({ a: "a", b: "b" }, "{str}"); // No error.
check({ a: 1, b: 2 }, "{int}"); // No error.
check({}, "{int}"); // No error (empty is fine).
check({ a: 1 }, "{int}+"); // No error (non-empty).

// Fail.
check({ a: 1, b: 2 }, "{str}"); // Throws ValueError "Must be plain object containing: string (received [1, 2])"
check({ a: "a" }, "{int}"); // Throws ValueError "Must be plain object containing: integer (received ["a"])"
check({}, "{int}+"); // Throws ValueError "Must be non-empty plain object containing: integer (received [])"

A type for the keys can also be specified by using { key: value } format.

// Pass.
check({ myVar: 123 }, "{ camel: integer }");
check({ "my-var": 123 }, "{ kebab: integer }");

Any string type can be made optional by appending a ? question mark to the type reference. This means the check will also accept undefined in addition to the specified type.

// Pass.
check(undefined, "str?"); // No error.
check(undefined, "lower?"); // No error.
check(undefined, "int?"); // No error.
check([undefined, undefined, 123], ["number?"]); // No error.

// Fail.
check(123, "str?"); // Throws ValueError "Must be string (received 123)"
check(null, "str?"); // Throws ValueError "Must be string (received null)"

Any type can be made non-empty by appending a + plus sign to the type reference. This means the check will only pass if the value is non-empty. Specifically this works as follows:

• Strings: .length is more than 0
• Map and Set objects: .size is more than 0
• Objects and arrays: If it has a .length property Number of own properties is not zero (using typeof === "object" && Object.keys())
• Booleans and numbers: Use truthyness (e.g. true is non-empty, false and 0 is empty)

This is equivalent to the inverse of the empty type.

// Pass.
check("abc", "str+"); // No error.
check([1], "arr+"); // No error.
check({ a: 1 }, "obj+"); // No error.

// Fail.
check(123, "str+"); // Throws ValueError "Must be non-empty string (received "")"
check([], "arr+"); // Throws ValueError "Must be non-empty plain array (received [])"
check({}, "obj+"); // Throws ValueError "Must be non-empty plain object (received {})"

To specify a size for the type, you can prepend minimum/maximum with e.g. {12}, {4,8}, {4,} or {,8} (e.g. RegExp style quantifiers). This allows you to specify e.g. a string with 12 characters, an array with between 10 and 20 items, or an integer with a minimum value of 4.

// Pass.
check("abc", "str{3}"); // No error (string with exact length 3 characters).
check(4, "num{,4}"); // No error (number with maximum value 4).
check(["a", "b"], "arr{1,}"); // No error (array with more than 1 item).
check([1, 2, 3], "num[]{2,4}"); // No error (array of numbers with between 2 and 4 items).

// Fail.
check("ab", "str{3}"); // Throws ValueError "Must be string with size 3"
check(4, "num{,4}"); // Throws ValueError "Must be finite number with maximum size 4"
check(["a", "b"], "arr{1,}"); // Throws ValueError "Must be array with minimum size 1"
check([1, 2, 3], "num[]{2,4}"); // Throws ValueError "Must be plain array containing finite number with size between 2 and 4"

Any string type can inverted by prepending a ! exclamation mark to the type reference. This means the check will only pass if the inverse of its type is true.

// Pass.
check(undefined, "!str"); // No error.
check("Abc", "!lower"); // No error.
check(123.456, "!integer"); // No error.
check([undefined, "abc", true, false], ["!number"]); // No error.

// Fail.
check(123, "!str"); // Throws ValueError "Must be not string (received "abc")"
check(true, "!bool"); // Throws ValueError "Must be not true or false (received true)"
check([undefined, "abc", true, 123], ["!number"]); // Throws ValueError "array[3]: Must be not number (received 123)"

You can use & and | to join string types together, to form AND and OR chains of allowed types. This allows you to compose together more complex types like number | string or date | number | null or string && custom-checker

| is used to create an OR type, meaning any of the values is valid, e.g. number|string or string | null

// Pass.
check(123, "str|num"); // No error.
check("a", "str|num"); // No error.

// Fail.
check(null, "str|num"); // Throws ValueError "Must be string or number (received null)"
check(null, "str|num|bool|func|obj"); // Throws ValueError "Must be string or number or boolean or function or object (received null)"

& is used to create an AND type, meaning the value must pass all of the checks to be valid. This is primarily useful for custom checkers e.g. lower & username-unique.

// Add a checker that confirms a string contains the word "cat"
add("catty", v => v.toLowerCase().indexOf("cat") >= 0);

// Pass.
check("this cat is crazy!", "lower & catty"); // No error.
check("THIS CAT IS CRAZY", "upper & catty"); // No error.

// Fail.
check("THIS CAT IS CRAZY", "lower & catty"); // Throws ValueError "Must be lowercase string and catty"
check("THIS DOG IS CRAZY", "string & catty"); // Throws ValueError "Must be string and catty"

Note: Built in checkers like lower or int+ already check the basic type of a value (e.g. string and number), so there's no need to use string & lower or number & int+ — internally the value will be checked twice. Spaces around the & or | are optional.

() parentheses can be used to create a 'grouped type'. This is useful to specify an array that allows several types, to make an invert/optional type of several types, or to state an explicit precence order for & and |.

// Pass.
check([123, "abc"], "(str|num)[]"); // No error.
check({ a: 123, b: "abc" }, "!(str|num)"); // No error.
check("", "(int & truthy) | (str & falsy)"); // No error.
check(12, "(int & truthy) | (str & falsy)"); // No error.

Constructor and constant types

For convenience some constructors (e.g. String) and constants (e.g. null) can be used as types in args() and check(). The following built-in objects and constants are supported:

Type	Description
Boolean	Same as 'boolean' type
String	Same as 'string' type
Number	Same as 'number' type
true	Same as 'true' type
false	Same as 'false' type
null	Same as 'null' type
undefined	Same as 'undefined' type

You can pass in any class name, and Blork will check the value using instanceof and generate a corresponding error message if the type doesn't match.

Using Object and Array constructors will work also and will allow any object that is instanceof Object or instanceof Array. Note: this is not the same as e.g. the 'object' and 'array' string types, which only allow plain objects and arrays.

// Pass.
check(true, Boolean); // No error.
check("abc", String); // No error.
check(123, Number); // No error.
check(new Date, Date); // No error.
check(new MyClass, MyClass); // No error.
check(Promise.resolved(true), Promise); // No error.
check([true, true, false], [Boolean]); // No error.
check({ name: 123 }, { name: Number }); // No error.

// Fail.
check("abc", Boolean); // Throws ValueError "Must be true or false (received "abc")"
check("abc", String); // Throws ValueError "Must be string (received "abc")"
check("abc", String, "myVar"); // Throws ValueError "myVar: Must be string (received "abc")"
check(new MyClass, OtherClass); // Throws ValueError "Must ben instance of OtherClass (received MyClass)"
check({ name: 123 }, { name: String }); // Throws ValueError "name: Must be string (received 123)"
check({ name: 123 }, { name: String }, "myObj"); // Throws ValueError "myObj[name]: Must be string (received 123)"

Object literal type

To check the types of object properties, use a literal object as a type. You can also deeply nest these properties and the types will be checked recursively and will generate useful debuggable error messages.

Note: it is fine for objects to contain additional properties that don't have a type specified.

// Pass.
check({ name: "abc" }, { name: "str" }); // No error.
check({ name: "abc" }, { name: "str?", age: "num?" }); // No error.
check({ name: "abc", additional: true }, { name: "str" }); // Throws nothing (additional properties are fine).

// Fail.
check({ age: "apple" }, { age: "num" }); // Throws ValueError "age: Must be number (received "apple")"
check({ size: { height: 10, width: "abc" } }, { size: { height: "num", width: "num" } }); // Throws ValueError "size[width]: Must be number (received "abc")"

To check that the type of any properties conform to a single type, use the VALUES symbol and create a [VALUES] key. This allows you to check objects that don't have known keys (e.g. from user generated data). This is similar to how indexer keys work in Flow or Typescript.

import { check, VALUES } from "blork";

// Pass.
check(
	{ a: 1, b: 2, c: 3 },
	{ [VALUES]: "num" }
); // No error.
check(
	{ name: "Dan", a: 1, b: 2, c: 3 },
	{ name: "str", [VALUES]: "num" }
); // No error.

// Fail.
check(
	{ a: 1, b: 2, c: "abc" },
	{ [VALUES]: "num" }
); // Throws ValueError "c: Must be number..."
check(
	{ name: "Dan", a: 1, b: 2, c: 3 },
	{ name: "str", [VALUES]: "bool" }
); // Throws ValueError "a: Must be boolean..."

You can use this functionality with the undefined type to ensure objects do not contain additional properties (object literal types by default are allowed to contain additional properties).

// Pass.
check(
	{ name: "Carl" },
	{ name: "str", [VALUES]: "undefined" }
); // No error.

// Fail.
check(
	{ name: "Jess", another: 28 },
	{ name: "str", [VALUES]: "undefined" }
); // Throws ValueError "another: Must be undefined..."

To check that the keys of any additional properties conform to a single type, use the KEYS symbol and create a [KEYS] key. This allows you to ensure that keys conform to a specific string type, e.g. camelCase, kebab-case or UPPERCASE (see string types above).

import { check, VALUES } from "blork";

// Pass.
check({ MYVAL: 1 }, { [KEYS]: "upper" }); // UPPERCASE keys — no error.
check({ myVal: 1 }, { [KEYS]: "camel" }); // camelCase keys — no error.
check({ MyVal: 1 }, { [KEYS]: "pascal" }); // PascalCase keys — no error.
check({ my-val: 1 }, { [KEYS]: "kebab" }); // kebab-case keys — no error.

// Fail.
check({ MYVAL: 1 }, { [KEYS]: "upper" }); // UPPERCASE keys — no error.
check({ myVal: 1 }, { [KEYS]: "camel" }); // camelCase keys — no error.
check({ MyVal: 1 }, { [KEYS]: "pascal" }); // PascalCase keys — no error.
check({ my-val: 1 }, { [KEYS]: "kebab" }); // kebab-case keys — no error.

Normally object literal types check that the object is a plain object. If you wish to allow the object to be a different object (in order to check specific keys on that object at the same time), use the CLASS symbol and create a [CLASS] key.

import { check, CLASS } from "blork";

// Make a fancy new class.
class MyClass {
	constructor () {
		this.num = 123;
	}
}

// Pass.
check(
	new MyClass,
	{ num: 123, [CLASS]: MyClass }
); // No error.

// Fail.
check(
	{ num: 123, },
	{ num: 123, [CLASS]: MyClass }
); // Throws ValueError "Must be instance of MyClass..."

Array literal type

To check an array where all items conform to a specific type, pass an array as the type. Arrays and objects can be deeply nested to check types recursively.

// Pass.
check(["abc", "abc"], ["str"]); // No error.
check([123, 123], ["num"]); // No error.
check([{ names: ["Alice", "John"] }], [{ names: ["str"] }]); // No error.

// Fail.
check(["abc", "abc", 123], ["str"]); // Throws ValueError "Array[2]: Must be number (received 123)"
check(["abc", "abc", 123], ["number"]); // Throws ValueError "Array[0]: Must be string (received "abc")"

Array tuple type

Similarly, to check the format of tuples, pass an array with two or more items as the type. If two or more types are in an type array, it is considered a tuple type and will be rejected if it does not conform exactly to the tuple.

// Pass.
check([123, "abc"], ["num", "str"]); // No error.
check([123, "abc"], ["num", "str", "str?"]); // No error.

// Fail.
check([123], ["num", "str"]); // Throws ValueError "Array[1]: Must be string (received undefined)"
check([123, 123], ["num", "str"]); // Throws ValueError "Array[1]: Must be string (received 123)"
check([123, "abc", true], ["num", "str"]); // Throws ValueError "Array: Too many items (expected 2 but received 3)"

Contributing

Please see (CONTRIBUTING.md)

Roadmap

• Support @decorator syntax for class methods (PRs welcome)

Changelog

• 8.2.0
  • Add string string type, e.g. "abc"
  • Add number string type, e.g. 1234
  • Object string type now accepts multiple props (separated by , commas)
  • Add robust nested parenthesis handling in string types (no longer breaks on nested groups, objects, tuples)
• 8.1.0
  • Add min/max size constraints on types via e.g. {4,8} suffix
• 8.0.0
  • Remove props() functionality (bloat)
  • Prepend function name to ValueError errors, e.g. MyClass.myFunc(): Must be string...
  • Add destack() method that parses Error.stack across major browsers
• 7.6.0
  • Allow prefix and error arguments for check() and args()
  • Add assert() function
• 7.5.0
  • Enable tuple arrays via [type1, type2] syntax
• 7.4.0
  • Make properties created with props() enumerable
  • Return the original object from props() (for chaining)
• 7.2.0
  • Add grouping for string types via parentheses, e.g. (str | num)
  • Add empty type to detect emptiness in strings, arrays, Map, Set, and objects
  • Add alphabetic, numeric and alphanumeric string types for specific strings
• 7.1.0
  • Add object and array string modifiers (using type[], {type} and { keyType: type } syntax)
• 7.0.0
  • Add VALUES, KEYS, and CLASS symbol constants
  • Remove _any key and use VALUES to provide the same functionality
  • Add KEYS functionality to check type or case of object keys, e.g. camelCase or kebab-case
  • Add CLASS functionality to check the class of an object
  • Add string case checkers for e.g. variable names (kebab-case, camelCase, snake_case etc)
  • upper and lower checkers work differently (all characters must be UPPERCASE/lowercase)
  • Rename int+, int- checkers to +int and -int
  • Add '+' modifier to check for non-empty values with any checker
  • Remove hardcoded '+' checkers like lower+, object+
  • Remove uppercase and lowercase checkers for consistency
• 6.0.0
  • Remove prop() function and add props() function instead (prop() was impossible to type with Flow)
• 5.1.0
  • Add prop() function that defines a locked object property that must match a Blork type
• 5.0.0
  • Change from symbol [ANY] key to [VALUES] key for indexer property (for convenience and better Flow compatibility)
• 4.5.0
  • Add checker() function to return the boolean checker function itself.
• 4.4.0
  • Add json checker to check for JSON-friendly values (null, true, false, finite numbers, strings, plain objects, plain arrays)
• 4.3.0
  • Add circular checker to check for objects with circular references
  • Add ! modifier to enable invert checking, e.g. !num (don't allow numbers) or !circular (don't allow circular references)
• 4.2.2
  • Use . dot notation in error message prefix when recursing into objects
• 4.2.1
  • Fix bug where optional types were throwing an incorrect error message
• 4.2.0
  • Rename FormattedError to ValueError (more descriptive and reusable name)
  • Make ValueError the default error thrown by Blork (not ValueError)
• 4.1.0
  • Allow custom error to be set for custom checkers via add()
  • Export debug() which allows any value to be converted to a string in a clean and clear format
  • Export format() which takes three arguments (message, value, prefix) and returns a consistently and beautifully formatted error message.
  • Export FormattedError which takes the same three arguments and applies format() so it always has beautiful errors
  • Export BlorkError (which is thrown when you're using Blork wrong) for the purposes of checking thrown errors against it
• 4.0.0
  • Major internal rewrite with API kept almost the same
  • Add support for combining checkers with | and & syntax
  • check() and args() no longer return anything (previously returned the number of passing values)
  • Custom checkers should now return boolean (message/description for the checker can be passed in as third field to add())