Security News
JSR Working Group Kicks Off with Ambitious Roadmap and Plans for Open Governance
At its inaugural meeting, the JSR Working Group outlined plans for an open governance model and a roadmap to enhance JavaScript package management.
The vega-util npm package provides utility functions for Vega, a visualization grammar. These utilities include functions for data manipulation, type checking, and other common operations needed when working with Vega visualizations.
Type Checking
Vega-util provides functions to check the type of a variable, such as isArray, isObject, and isString.
const vegaUtil = require('vega-util');
console.log(vegaUtil.isArray([1, 2, 3])); // true
console.log(vegaUtil.isObject({a: 1})); // true
console.log(vegaUtil.isString('hello')); // true
String Manipulation
Vega-util includes functions for string manipulation, such as pad and truncate.
const vegaUtil = require('vega-util');
console.log(vegaUtil.pad('test', 10)); // 'test '
console.log(vegaUtil.truncate('This is a long string', 10)); // 'This is a…'
Data Manipulation
Vega-util provides functions for data manipulation, such as array conversion and object extension.
const vegaUtil = require('vega-util');
const data = [1, 2, 3, 4, 5];
console.log(vegaUtil.array(data)); // [1, 2, 3, 4, 5]
console.log(vegaUtil.extend({}, {a: 1}, {b: 2})); // {a: 1, b: 2}
Lodash is a modern JavaScript utility library delivering modularity, performance, and extras. It provides a wide range of utility functions for common programming tasks, similar to vega-util but with a broader scope and more extensive functionality.
Underscore is a JavaScript library that provides a whole mess of useful functional programming helpers without extending any built-in objects. It offers similar utilities for data manipulation and type checking as vega-util.
Ramda is a practical functional library for JavaScript programmers. It makes it easy to create functional pipelines and provides utilities for data manipulation and type checking, similar to vega-util but with a focus on functional programming.
JavaScript utilities for Vega. Provides a set of helper methods used throughout Vega modules, including function generators, type checkers, log messages, and additional utilities for Object, Array and String values.
Functions and function generators for accessing and comparing values.
# vega.accessor(function[, fields, name]) <>
Annotates a function instance with a string array of dependent data fields and a string name, and returns the input function. Assumes the input function takes an object (data tuple) as input, and that strings in the fields array correspond to object properties accessed by the function. Once annotated, Vega dataflows can track data field dependencies and generate appropriate output names (e.g., when computing aggregations) if the function is used as an accessor.
Internally, this method assigns the field array to the fields
property of the input function, and the name to the fname
property. To be future-proof, clients should not access these properties directly. Instead, use the accessorFields and accessorName methods.
# vega.accessorFields(accessor) <>
Returns the array of dependent field names for a given accessor function. Returns null if no field names have been set.
# vega.accessorName(accessor) <>
Returns the name string for a given accessor function. Returns null if no name has been set.
A comparator function for sorting primitive and Date values in ascending order.
# vega.compare(fields[, orders]) <>
Generates a comparator function for sorting data values, based on the given set of fields and optional sort orders. The fields argument must be either a string, an accessor function, or an array of either. Strings indicate the name of object properties to sort by, in precedence order. Field strings may include nested properties (e.g., foo.bar.baz
). The orders argument must be either a string or an array of strings; the valid string values are 'ascending'
(for ascending sort order of the corresponding field) or 'descending'
(for descending sort order of the corresponding field). If the orders argument is omitted, is shorter than the fields array, or includes values other than 'ascending'
or 'descending'
, corresponding fields will default to ascending order.
Given an input value, returns a function that simply returns that value. If the input value is itself a function, that function is returned directly.
# vega.debounce(delay, func) <>
Generates a "debounced" function that delays invoking func until after delay milliseconds have elapsed since the last time the debounced function was invoked. Invocation passes up to one argument from the debounced function to func and does not preserve the this context.
# vega.field(field[, name]) <>
Generates an accessor function for retrieving the specified field value. The input field string may include nested properties (e.g., foo.bar.baz
). An optional name argument indicates the accessor name for the generated function; if excluded the field string will be used as the name (see the accessor method for more details).
var fooField = vega.field('foo');
fooField({foo: 5}); // 5
vega.accessorName(fooField); // 'foo'
vega.accessorFields(fooField); // ['foo']
var pathField = vega.field('foo.bar', 'path');
pathField({foo: {bar: 'vega'}}); // 'vega'
pathField({foo: 5}); // undefined
vega.accessorName(pathField); // 'path'
vega.accessorFields(pathField); // ['foo.bar']
An accessor function that returns the value of the id
property of an input object.
An accessor function that simply returns its value argument.
Generates an accessor function that returns a key string (suitable for using as an object property name) for a set of object fields. The fields argument must be either a string or string array, with each entry indicating a property of an input object to be used to produce representative key values. The resulting key function is an accessor instance with the accessor name 'key'
. The optional flat argument is a boolean flag indicating if the field names should be treated as flat property names, side-stepping nested field lookups normally indicated by dot or bracket notation. By default, flat is false
and nested property lookup is performed.
var keyf = vega.key(['foo', 'bar']);
keyf({foo:'hi', bar:5}); // 'hi|5'
vega.accessorName(keyf); // 'key'
vega.accessorFields(keyf); // ['foo', 'bar']
An accessor function that simply returns the value one (1
).
An accessor function that simply returns the value zero (0
).
An accessor function that simply returns the boolean true
value.
An accessor function that simply returns the boolean false
value.
Functions for checking the type of JavaScript values.
Returns true
if the input value is an Array instance, false
otherwise.
Returns true
if the input value is a Boolean instance, false
otherwise.
Returns true
if the input value is a Date instance, false
otherwise.
Returns true
if the input value is a Function instance, false
otherwise.
Returns true
if the input value supports the iterable protocol, false
otherwise.
Returns true
if the input value is a Number instance, false
otherwise.
Returns true
if the input value is an Object instance, false
otherwise.
Returns true
if the input value is a RegExp instance, false
otherwise.
Returns true
if the input value is a String instance, false
otherwise.
Functions for coercing values to a desired type.
Coerces the input value to a boolean. The strings "true"
and "1"
map to true
; the strings "false"
and "0"
map to false
. Null values and empty strings are mapped to null
.
# vega.toDate(value[, parser]) <>
Coerces the input value to a Date timestamp. Null values and empty strings are mapped to null
. Date objects are passed through unchanged. If an optional parser function is provided, it is used to perform date parsing. By default, numbers (timestamps) are passed through unchanged and otherwise Date.parse
is used. Be aware that Date.parse
has different implementations across browsers!
Coerces the input value to a number. Null values and empty strings are mapped to null
.
Coerces the input value to a string. Null values and empty strings are mapped to null
.
Functions for manipulating JavaScript Object values.
# vega.extend(target[, source1, source2, …]) <>
Extends a target object by copying (in order) all enumerable properties of the input source objects.
# vega.inherits(child, parent[, members]) <>
A convenience method for setting up object-oriented inheritance. Assigns the prototype
property of the input child function, such that the child inherits the properties of the parent function's prototype via prototypal inheritance. The optional members argument is an object containing methods or properties to add to the new child prototype. Returns the new child prototype object.
Provides a key/value cache, keyed by string, that evicts least recently used (LRU) entries. Supports has, get, set, and clear methods. The optional maxsize argument (default 10,000) determines the maximum number of elements that can be added before items are evicted.
In the internal implementation two caches are used: a current cache and a previous cache. When then current cache fills, it becomes the previous cache and a new, empty current cache is created. Subsequent get calls will promote elements in the previous cache to the current cache. Once the current cache fills, the caches are again turned over and all LRU items still residing in the previous cache are dropped.
var cache = vega.lruCache(1); // use 1-element cache to demonstrate
cache.set('a', 1); // current cache has a->1
cache.set('b', 2); // current cache has b->2, previous cache has a->1
cache.get('a'); // -> 1 (a now in current cache, b in previous cache)
cache.set('c', 3); // current cache has c->3, previous cache has a->1
cache.has('c'); // -> true (c is in the current cache)
cache.has('b'); // -> false (b has been evicted)
cache.has('a'); // -> true (a is in the previous cache)
cache.get('c'); // -> 3
cache.clear();
Provides a key/value map data structure, keyed by string. Supports a subset of the ES6 Map API, including has, get, set, delete and clear methods and a size property. If the optional object argument is provided, all key/values on the input object will be added to the new map instance.
var map = vega.fastmap({foo:1, bar:2});
map.has('foo'); // -> true
map.get('foo'); // -> 1
map.delete('bar');
map.has('bar'); // -> false
map.set('baz', 0);
map.get('baz'); // -> 0
map.size; // -> 2
map.empty; // -> 1 (number of empty entries)
map.clean(); // invoke garbage collection, clears empty entries
By using basic JavaScript objects to hash values and avoiding calls to the built-in JavaScript delete
operator, fastmaps provide good performance. However, this speed comes at the cost of some object bloat, requiring periodic garbage collection in the case of many deletions. The fastmap object provides a clean method for requesting garbage collection of empty map entries. The test method is a getter/setter for providing an optional boolean-valued function that indicates additional objects (not just empty entries from deleted keys) that should be removed during garbage collection.
# vega.hasOwnProperty(object, property) <>
Returns true
if the input object has a named property defined on it, otherwise false
. This method concerns the input object only, ignoring properties defined up the prototype chain. The method is equivalent to Object.hasOwnProperty
, but improves security by guarding against overridden Object prototype built-ins.
# vega.mergeConfig(...config) <>
Merges a collection of Vega configuration objects into a single combined object. Configuration objects with higher index positions in the arguments list have higher precedence, and so may override settings provided by earlier objects.
# vega.writeConfig(config, key, value[, recurse]) <>
Writes a value to a Vega configuration object. Given a config object and a configuration property key and value, appropriately assign the value to the config object. The recurse parameter controls if recursive merging (as opposed to overwriting) is performed: if false
or undefined, no recursion is performed; if true
one level of recursive merge is performed; if recurse is object-valued, one level of recursive merge is performed for keys that the recurse object maps to a truthy value. This method is a helper method used within mergeConfig.
Functions for manipulating JavaScript Array values.
Ensures that the input value is an Array instance. If so, the value is simply returned. If not, the value is wrapped within a new single-element an array, returning [value]
.
# vega.clampRange(range, min, max) <>
Span-preserving range clamp. If the span of the input range is less than (max - min) and an endpoint exceeds either the min or max value, the range is translated such that the span is preserved and one endpoint touches the boundary of the min/max range. If the span exceeds (max - min), returns the range [min, max]
.
# vega.extent(array[, accessor]) <>
Returns an array with the minimum and maximum values in the input array, in the form [min, max]
. Ignores null, undefined, and NaN values. The optional accessor argument provides a function that is first applied to each array value prior to comparison.
# vega.extentIndex(array[, accessor]) <>
Returns the array indices for the minimum and maximum values in the input array (as a [minIndex, maxIndex]
array), according to natural ordering. The optional accessor argument provides a function that is first applied to each array value prior to comparison.
vega.extentIndex([1,5,3,0,4,2]); // [3, 1]
vega.extentIndex([
{a: 3, b:2},
{a: 2, b:1},
{a: 1, b:3}
], vega.field('b')); // [1, 2]
# vega.flush(range, value, threshold, left, right, center) <>
Selects among potential return values if the provided value is flush with the input numeric range. Returns left if *value is within the threshold distance of the minimum element of the range. Returns right if *value is within the threshold distance of the maximum element of the range. Otherwise, returns center.
# vega.inrange(value, range[, left, right]) <>
Returns true
if the input value lies within the span of the given range array. The left and right boolean flags control the use of inclusive (true) or exclusive (false) comparisons; if unspecified, inclusive tests are used.
# vega.lerp(array, fraction) <>
Returns the linearly interpolated value between the first and last entries in the array for the provided interpolation fraction (typically between 0 and 1). For example, lerp([0, 50], 0.5) returns 25.
# vega.merge(compare, array1, array2[, output]) <>
Merge two sorted arrays into a single sorted array. The input compare function is a comparator for sorting elements and should correspond to the pre-sorted orders of the array1 and array2 source arrays. The merged array contents are written to the output array, if provided. If output is not specified, a new array is generated and returned.
# vega.panLinear(domain, delta) <>
Given an input numeric domain (sorted in increasing order), returns a new domain array that translates the domain by a delta using a linear transform. The delta value is expressed as a fraction of the current domain span, and may be positive or negative to indicate the translation direction. The return value is a two-element array indicating the starting and ending value of the translated (panned) domain.
# vega.panLog(domain, delta) <>
Given an input numeric domain (sorted in increasing order), returns a new domain array that translates the domain by a delta using a logarithmic transform. The delta value is expressed as a fraction of the current domain span, and may be positive or negative to indicate the translation direction. The return value is a two-element array indicating the starting and ending value of the translated (panned) domain.
# vega.panPow(domain, delta, exponent) <>
Given an input numeric domain (sorted in increasing order), returns a new domain array that translates the domain by a delta using a power scale transform parameterized by the provided exponent. The delta value is expressed as a fraction of the current domain span, and may be positive or negative to indicate the translation direction. The return value is a two-element array indicating the starting and ending value of the translated (panned) domain.
# vega.panSymlog(domain, delta, constant) <>
Given an input numeric domain (sorted in increasing order), returns a new domain array that translates the domain by a delta using a symlog (symmetric log) scale transform parameterized by the provided constant. The delta value is expressed as a fraction of the current domain span, and may be positive or negative to indicate the translation direction. The return value is a two-element array indicating the starting and ending value of the translated (panned) domain.
Returns the last element in the input array. Similar to the built-in Array.pop
method, except that it does not remove the last element. This method is a convenient shorthand for array[array.length - 1]
.
Returns the numerical span of the input array: the difference between the last and first values.
Given an input array of values, returns a new Object instance whose property keys are the values in array, each assigned a property value of 1
. Each value in array is coerced to a String value and so should map to a reasonable string key value.
vega.toSet([1, 2, 3]); // {'1':1, '2':1, '3':1}
# vega.visitArray(array, [filter,] visitor) <>
Vists the values in an input array, invoking the visitor function for each array value that passes an optional filter. If specified, the filter function is called with each individual array value. If the filter function return value is truthy, the returned value is then passed as input to the visitor function. Thus, the filter not only performs filtering, it can serve as a value transformer. If the filter function is not specified, all values in the array are passed to the visitor function. Similar to the built-in Array.forEach
method, the visitor function is invoked with three arguments: the value to visit, the current index into the source array, and a reference to the soure array.
// console output: 1 0; 3 2
vega.visitArray([0, -1, 2],
function(x) { return x + 1; },
function(v, i, array) { console.log(v, i); });
# vega.zoomLinear(domain, anchor, scale) <>
Given an input numeric domain (sorted in increasing order), returns a new domain array that scales (zooms) the domain by a scale factor using a linear transform, centered on the given anchor value. If anchor is null
, the midpoint of the domain is used instead. The return value is a two-element array indicating the starting and ending value of the scaled (zoomed) domain.
# vega.zoomLog(domain, anchor, scale) <>
Given an input numeric domain (sorted in increasing order), returns a new domain array that scales (zooms) the domain by a scale factor using a logarithmic transform, centered on the given anchor value. If anchor is null
, the midpoint of the domain is used instead. The return value is a two-element array indicating the starting and ending value of the scaled (zoomed) domain.
# vega.zoomPow(domain, anchor, scale, exponent) <>
Given an input numeric domain (sorted in increasing order), returns a new domain array that scales (zooms) the domain by a scale factor using a power scale transform parameterized by the provided exponent, centered on the given anchor value. If anchor is null
, the midpoint of the domain is used instead. The return value is a two-element array indicating the starting and ending value of the scaled (zoomed) domain.
# vega.zoomSymlog(domain, anchor, scale, constant) <>
Given an input numeric domain (sorted in increasing order), returns a new domain array that scales (zooms) the domain by a scale factor using a symlog (symmetric log) scale transform parameterized by the provided constant, centered on the given anchor value. If anchor is null
, the midpoint of the domain is used instead. The return value is a two-element array indicating the starting and ending value of the scaled (zoomed) domain.
Functions for manipulating JavaScript Date values.
Returns the quarter of the year (an integer between 1 and 4) for an input date object or timestamp for the local timezone.
Returns the quarter of the year (an integer between 1 and 4) for an input date object or timestamp for Coordinated Universal Time (UTC).
Functions for generating and manipulating JavaScript String values.
# vega.pad(string, length[, character, align]) <>
Pads a string value with repeated instances of a character up to a specified length. If character is not specified, a space (' '
) is used. By default, padding is added to the end of a string. An optional align parameter specifies if padding should be added to the 'left'
(beginning), 'center'
, or 'right'
(end) of the input string.
vega.pad('15', 5, '0', 'left'); // '00015'
# vega.repeat(string, count) <>
Given an input string, returns a new string that repeats the input count times.
vega.repeat('0', 5); // '00000'
# vega.splitAccessPath(path) <>
Splits an input string representing an access path for JavaScript object properties into an array of constituent path elements.
vega.splitAccessPath('foo'); // ['foo']
vega.splitAccessPath('foo.bar'); // ['foo', 'bar']
vega.splitAccessPath('foo["bar"]'); // ['foo', 'bar']
vega.splitAccessPath('foo[0].bar'); // ['foo', '0', 'bar']
Returns an output representation of an input value that is both JSON and JavaScript compliant. For Object and String values, JSON.stringify
is used to generate the output string. Primitive types such as Number or Boolean are returned as-is. This method can be used to generate values that can then be included in runtime-compiled code snippets (for example, via the Function constructor).
# vega.truncate(string, length[, align, ellipsis]) <>
Truncates an input string to a target length. The optional align argument indicates what part of the string should be truncated: 'left'
(the beginning), 'center'
, or 'right'
(the end). By default, the 'right'
end of the string is truncated. The optional ellipsis argument indicates the string to use to indicate truncated content; by default the ellipsis character (…
, same as \u2026
) is used.
# vega.logger([level, method, handler]) <>
Generates a new logger instance for selectively writing log messages to the JavaScript console. The optional level argument indicates the initial log level to use (one of None, Error, Warn, Info, or Debug), and defaults to None if not specified.
The generated logger instance provides the following methods:
console.error
method if the current log level is Error or higher.console.warn
method if the current log level is Warn or higher.console.log
method if the current log level is Info or higher.console.log
method if the current log level is Debug or higher.To override the choice of console method invoked (console.log
, console.warn
, or console.error
), use the optional method argument (one of "log"
, "warn"
, or "error"
) to route all log messages through the same method.
To provide your own custom handler function for logging, use the optional handler argument to provide a function that take three arguments: a method string (one of "log"
, "warn"
, or "error"
), a log level, and an array of values to log.
Constant value indicating a log level of 'None'. If set as the log level of a logger instance, all log messages will be suppressed.
Constant value indicating a log level of 'Error'. If set as the log level of a logger instance, only error messages will be presented.
Constant value indicating a log level of 'Warn'. If set as the log level of a logger instance, both error and warning messages will be presented.
Constant value indicating a log level of 'Info'. If set as the log level of a logger instance, error, warning and info messages will be presented.
Constant value indicating a log level of 'Debug'. If set as the log level of a logger instance, all log messages (error, warning, info and debug) will be presented.
Throws a new error with the provided error message. This is a convenience method adding a layer of indirection for error handling, for example allowing error conditions to be included in expression chains.
vega.error('Uh oh'); // equivalent to: throw Error('Uh oh')
// embed error in an expression
return isOk ? returnValue : vega.error('Not OK');
FAQs
JavaScript utilities for Vega.
We found that vega-util demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 1 open source maintainer collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Security News
At its inaugural meeting, the JSR Working Group outlined plans for an open governance model and a roadmap to enhance JavaScript package management.
Security News
Research
An advanced npm supply chain attack is leveraging Ethereum smart contracts for decentralized, persistent malware control, evading traditional defenses.
Security News
Research
Attackers are impersonating Sindre Sorhus on npm with a fake 'chalk-node' package containing a malicious backdoor to compromise developers' projects.