check-more-types
Large collection of predicates, inspired by check-types.js
See Readable conditions
for advice and examples.
Install
node: npm install check-more-types --save
var check = require('check-more-types');
console.assert(check.bit(1), 'check.bit works');
browser bower install check-more-types --save
<script src="check-more-types.js"></script>
check.number
check.number
is part of the check-types
library, but as a note, it does not pass
null
, undefined
or NaN
values
check.number(null);
check.not.number(undefined);
check.number(NaN);
check.port
Returns true if passed argument is positive number less or equal to largest
allowed port number 65535
check.systemPort
Returns true if passed argument is number between 0 and 1024
check.userPort
Returns true if passed argument is a port number and larger than 1024
check.error
Returns true if given argument is an instance of type Error
check.https (alias secure
)
Returns true if the provided url starts with https://
. Alias secure
.
check.http
Returns true if the provided url starts with http://
check.defined
check.defined(0); // true
check.defined(1); // true
check.defined(true); // true
check.defined(false); // true
check.defined(null); // true
check.defined(''); // true
check.defined(); // false
check.defined(root.doesNotExist); // false
check.defined({}.doesNotExist); // false
check.semver
check.semver('1.0.2'); // true
check.semver('1.0.2-alpha'); // false
check.positiveNumber (alias check.positive
)
check.positive(100);
check.not.positive(-1);
check.negativeNumber (alias check.negative
)
check.negative(-10);
check.not.negativeNumber(1);
check.type
check.type('string', 'foo'); // true
check.type('number', 42); // true
check.type
is curried.
check.bit
check.bit(0); // true
check.bit(1); // true
check.bit('1'); // false
check.bit(2); // false
check.bit(true); // false
check.primitive
Returns true for primitive JavaScript types
check.primitive(42); // true
check.primitive(true); // true
check.primitive('foo'); // true
check.primitive([]); // false
Also returns true for Symbol
ES6 syntax.
check.zero
check.zero(0); // true
check.zero(); // false
check.zero(null); // false
check.git
check.git('url string');
check.commitId
check.shortCommitId
check.index
check.oneOf
var colors = ['red', 'green', 'blue'];
var color = 'green';
check.oneOf(colors, color); // true
check.oneOf(colors, 'brown'); // false
Function is curried
check.same
var foo = {},
bar = {};
check.same(foo, foo); // true
check.same(foo, bar); // false
// primitives are compared by value
check.same(0, 0); // true
check.same('foo', 'foo'); // true
check.same
should produce same result as ===
.
check.length
Confirms length of a string or an Array. The function is curried and
can guess the argument order
check.length([1, 2], 2);
check.length('foo', 3);
check.length(3, 'foo');
check.length('foo')(3);
check.length(3)('foo');
check.sameLength
check.sameLength([1, 2], ['a', 'b']); // true
check.sameLength('ab', 'cd'); // true
// different types
check.sameLength([1, 2], 'ab'); // false
check.allSame
var foo = {},
bar = {};
check.allSame([foo, foo, foo]); // true
check.allSame([foo, foo, bar]); // false
// primitives are compared by value
check.allSame([0, 0]); // true
check.allSame(['foo', 'foo', 'foo']); // true
check.allSame([false, 0]); // false
check.unit
check.unit(0); // true
check.unit(1); // true
check.unit(0.1); // true
check.unit(1.2); // false
check.unit(-0.1); // false
check.hexRgb
check.hexRgb('#FF00FF'); // true
check.hexRgb('#000'); // true
check.hexRgb('#aaffed'); // true
check.hexRgb('#00aaffed'); // false
check.hexRgb('aaffed'); // false
check.bool
check.bool(true); // true
check.bool(false); // true
check.bool(0); // false
check.bool(1); // false
check.bool('1'); // false
check.bool(2); // false
check.emptyString
check.emptyString(''); // true
check.emptyString(' '); // false
check.emptyString(0); // false
check.emptyString([]); // false
check.empty
check.empty([]); // true
check.empty(''); // true
check.empty({}); // true
check.empty(0); // false
check.empty(['foo']); // false
check.unempty
check.unempty([]); // false
check.unempty(''); // false
check.unempty({}); // false
check.unempty(0); // true
check.unempty(['foo']); // true
check.unempty('foo'); // true
check.unemptyArray
check.unemptyArray(null); // false
check.unemptyArray(1); // false
check.unemptyArray({}); // false
check.unemptyArray([]); // false
check.unemptyArray(root.doesNotExist); // false
check.unemptyArray([1]); // true
check.unemptyArray(['foo', 'bar']); // true
check.arrayOfStrings
// second argument is checkLowerCase
check.arrayOfStrings(['foo', 'Foo']); // true
check.arrayOfStrings(['foo', 'Foo'], true); // false
check.arrayOfStrings(['foo', 'bar'], true); // true
check.arrayOfStrings(['FOO', 'BAR'], true); // false
check.arrayOf
check.arrayOf(check.unemptyString, ['foo', '']);
check.arrayOf(check.unemptyString, ['foo', 'bar']);
var person = {
first: check.unemptyString,
last: check.unemptyString
};
var isPerson = check.schema.bind(null, person);
var arePeople = check.arrayOf.bind(null, isPerson);
var people = [{
first: 'foo',
last: 'bar'
}];
arePeople(people);
Why would you need check.arrayOf(predicate, x)
and not simply use x.every(predicate)
?
Because x
might not be an Array.
check.badItems
Finds items that do not pass predicate
check.badItems(check.unemptyString, ['foo', '', 'bar']);
check.arrayOfArraysOfStrings
// second argument is checkLowerCase
check.arrayOfArraysOfStrings([['foo'], ['bar'}}); // true
check.arrayOfArraysOfStrings([['foo'], ['bar'}}, true); // true
check.arrayOfArraysOfStrings([['foo'], ['BAR'}}, true); // false
check.lowerCase
check.lowerCase('foo bar'); // true
check.lowerCase('*foo ^bar'); // true
check.lowerCase('fooBar'); // false
// non-strings return false
check.lowerCase(10); // false
check.has(obj, property)
var obj = {
foo: 'foo',
bar: 0
};
check.has(obj, 'foo'); // true
check.has(obj, 'bar'); // true
check.has(obj, 'baz'); // false
// non-object returns false
check.has(5, 'foo'); // false
check.has('foo', 'length'); // true
check.all
var obj = {
foo: 'foo',
bar: 'bar',
baz: 'baz'
};
var predicates = {
foo: check.unemptyString,
bar: function(value) {
return value === 'bar';
}
};
check.all(obj, predicates); // true
check.schema
var obj = {
foo: 'foo',
bar: 'bar',
baz: 'baz'
};
var schema = {
foo: check.unemptyString,
bar: function(value) {
return value === 'bar';
}
};
check.schema(schema, obj); // true
check.schema(schema, {}); // false
check.spec
is equivalent to check.all
but with arguments reversed.
This makes it very convenient to create new validator functions using partial
argument application
The method is curried, thus you can easily create predicate function
var hasName = check.schema({ name: check.unemptyString });
hasName({ name: 'joe' });
check.schema bind
var personSchema = {
name: check.unemptyString,
age: check.positiveNumber
};
var isValidPerson = check.schema.bind(null, personSchema);
var h1 = {
name: 'joe',
age: 10
};
var h2 = {
name: 'ann'
// missing age property
};
isValidPerson(h1); // true
isValidPerson(h2); // false
If you want you can manually bind check.schema
to first argument
var personSchema = {
name: check.unemptyString,
age: check.positiveNumber
};
var isValidPerson = check.schema.bind(null, personSchema);
var h1 = {
name: 'joe',
age: 10
};
var h2 = {
name: 'ann'
// missing age property
};
isValidPerson(h1); // true
isValidPerson(h2); // false
You can use Function.prototype.bind
or any partial application method, for example
_.partial(check.schema, personSchema);
.
Because bound schema parameter generates a valid function, you can nest checks using
schema composition. For example let us combine the reuse isValidPerson
as part of
another check
schema composition
var teamSchema = {
manager: isValidPerson,
members: check.unemptyArray
};
var team = {
manager: {
name: 'jim',
age: 20
},
members: ['joe', 'ann']
};
check.schema(teamSchema, team); // true
check.raises(fn, validator)
function foo() {
throw new Error('foo');
}
function bar() {}
function isValidError(err) {
return err.message === 'foo';
}
function isInvalid(err) {
check.instance(err, Error); // true
return false;
}
check.raises(foo); // true
check.raises(bar); // false
check.raises(foo, isValidError); // true
check.raises(foo, isInvalid); // false
Modifiers
Every predicate function is also added to check.maybe
object.
The maybe
predicate passes if the argument is null or undefined,
or the predicate returns true.
check.maybe
check.maybe.bool(); // true
check.maybe.bool('true'); // false
var empty;
check.maybe.lowerCase(empty); // true
check.maybe.unemptyArray(); // true
check.maybe.unemptyArray([]); // false
check.maybe.unemptyArray(['foo', 'bar']); // true
Every function has a negated predicate in check.not
object
check.not
check.not.bool(4); // true
check.not.bool('true'); // true
check.not.bool(true); // false
Every predicate can also throw an exception if it fails
check.verify
check.verify.arrayOfStrings(['foo', 'bar']);
check.verify.bit(1);
function nonStrings() {
check.verify.arrayOfStrings(['Foo', 1]);
}
check.raises(nonStrings); // true
function nonLowerCase() {
check.verify.lowerCase('Foo');
}
check.raises(nonLowerCase); // true
Adding your own predicates
You can add new predicates to check
, check.maybe
, etc. by using check.mixin(predicate)
method. If you do not pass a name, it will try using function's name.
check.mixin(predicate, name)
function isBar(a) {
return a === 'bar';
}
check.mixin(isBar, 'bar');
check.bar('bar'); // true
check.bar('anything else'); // false
// supports modifiers
check.maybe.bar(); // true
check.maybe.bar('bar'); // true
check.not.bar('foo'); // true
check.not.bar('bar'); // false
Mixin will not override existing functions
check.mixin does not override
function isFoo(a) {
return a === 'foo';
}
function isBar(a) {
return a === 'bar';
}
check.mixin(isFoo, 'isFoo');
check.isFoo; // isFoo
check.mixin(isBar, 'isFoo');
check.isFoo; // isFoo
Defending a function
Using check-more-types you can separate the inner function logic from checking input
arguments. Instead of this
function add(a, b) {
la(check.number(a), 'first argument should be a number', a);
la(check.number(a), 'second argument should be a number', b);
return a + b;
}
you can use check.defend
function
check.defend(fn, predicates)
function add(a, b) {
return a + b;
}
var safeAdd = check.defend(add, check.number, check.number);
add('foo', 2); // 'foo2'
// calling safeAdd('foo', 2) raises an exception
check.raises(safeAdd.bind(null, 'foo', 2)); // true
protects optional arguments
function add(a, b) {
if (typeof b === 'undefined') {
return 'foo';
}
return a + b;
}
add(2); // 'foo'
var safeAdd = check.defend(add, check.number, check.maybe.number);
safeAdd(2, 3); // 5
safeAdd(2); // 'foo'
You can add extra message after a predicate
check.defend with messages
function add(a, b) {
return a + b;
}
var safeAdd = check.defend(add, check.number, 'a should be a number', check.string, 'b should be a string');
safeAdd(2, 'foo'); // '2foo'
function addNumbers() {
return safeAdd(2, 3);
}
function checkException(err) {
err.message; // 'Argument 2: 3 does not pass predicate: b should be a string'
return true;
}
check.raises(addNumbers, checkException); // true
This works great when combined with JavaScript module pattern as in this example
check.defend in module pattern
var add = (function() {
// inner private function without any argument checks
function add(a, b) {
return a + b;
}
// return defended function
return check.defend(add, check.number, check.number);
}());
add(2, 3); // 5
// trying to call with non-numbers raises an exception
function callAddWithNonNumbers() {
return add('foo', 'bar');
}
check.raises(callAddWithNonNumbers); // true
Safe callback execution
Sometimes we want to execute a function depending on the condition, but without throwing an
exception. For these cases, there is check.then
check.then
function isSum10(a, b) {
return a + b === 10;
}
function sum(a, b) {
return a + b;
}
var onlyAddTo10 = check.then(isSum10, sum);
// isSum10 returns true for these arguments
// then sum is executed
onlyAddTo10(3, 7); // 10
onlyAddTo10(1, 2); // undefined
// sum is never called because isSum10 condition is false
check.found
Great for quickly checking string or array search results
check.found('foo'.indexOf('f'));
check.found('foo bar'.indexOf('bar'));
check.regexp
Returns true if the passed value is a regular expression.
check.promise
Returns true if given object has promise methods (.then
, etc)
check.validDate
Returns true if the given instance is a Date and is valid.
check.equal
Curried shallow strict comparison
var foo = 'foo';
check.equal(foo, 'foo');
var isFoo = check.equal('foo');
isFoo('foo');
isFoo('bar');
check.or
Combines multiple predicates into single one using OR logic
var predicate = check.or(check.bool, check.unemptyString);
predicate(true);
predicate('foo');
predicate(42);
It treats non-functions as boolean values
var predicate = check.or(check.unemptyString, 42);
predicate('foo');
predicate(false);
Note: if there are any exceptions inside the individual predicate functions, they are
treated as false
values.
check.and
Combines multiple predicates using AND. If the predicate is not a function,
evaluates it as a boolean value.
function isFoo(x) { return x === 'foo'; }
check.and(check.unemptyString, isFoo);
Both check.or
and check.and
are very useful inside check.schema
to create
more powerful predicates on the fly.
var isFirstLastNames = check.schema.bind(null, {
first: check.unemptyString,
last: check.unemptyString
});
var isValidPerson = check.schema.bind(null, {
name: check.or(check.unemptyString, isFirstLastNames)
});
isValidPerson({ name: 'foo' });
isValidPerson({ name: {
first: 'foo',
last: 'bar'
}});
Small print
Author: Kensho © 2014
Support: if you find any problems with this library,
open issue on Github
This documentation was generated using grunt-xplain
and grunt-readme.
MIT License
The MIT License (MIT)
Copyright (c) 2014 Kensho
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
the Software, and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.