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mathjs/es/function/string/format.js

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1import { format as formatString } from '../../utils/string';
2import { factory } from '../../utils/factory';
3var name = 'format';
4var dependencies = ['typed'];
5export var createFormat =
6/* #__PURE__ */
7factory(name, dependencies, function (_ref) {
var typed = _ref.typed;
9
/**
 * Format a value of any type into a string.
 *
 * Syntax:
 *
 *    math.format(value)
 *    math.format(value, options)
 *    math.format(value, precision)
 *    math.format(value, callback)
 *
 * Where:
 *
 *  - `value: *`
 *    The value to be formatted
 *  - `options: Object`
 *    An object with formatting options. Available options:
 *    - `notation: string`
 *      Number notation. Choose from:
 *      - 'fixed'
 *        Always use regular number notation.
 *        For example '123.40' and '14000000'
 *      - 'exponential'
 *        Always use exponential notation.
 *        For example '1.234e+2' and '1.4e+7'
 *      - 'engineering'
 *        Always use engineering notation.
 *        For example '123.4e+0' and '14.0e+6'
 *      - 'auto' (default)
 *        Regular number notation for numbers having an absolute value between
 *        `lower` and `upper` bounds, and uses exponential notation elsewhere.
 *        Lower bound is included, upper bound is excluded.
 *        For example '123.4' and '1.4e7'.
 *    - `precision: number`
 *      A number between 0 and 16 to round the digits of the number. In case
 *      of notations 'exponential', 'engineering', and 'auto', `precision`
 *      defines the total number of significant digits returned.
 *      In case of notation 'fixed', `precision` defines the number of
 *      significant digits after the decimal point.
 *      `precision` is undefined by default.
 *    - `lowerExp: number`
 *      Exponent determining the lower boundary for formatting a value with
 *      an exponent when `notation='auto`. Default value is `-3`.
 *    - `upperExp: number`
 *      Exponent determining the upper boundary for formatting a value with
 *      an exponent when `notation='auto`. Default value is `5`.
 *    - `fraction: string`. Available values: 'ratio' (default) or 'decimal'.
 *      For example `format(fraction(1, 3))` will output '1/3' when 'ratio' is
 *      configured, and will output `0.(3)` when 'decimal' is configured.
 * - `callback: function`
 *   A custom formatting function, invoked for all numeric elements in `value`,
 *   for example all elements of a matrix, or the real and imaginary
 *   parts of a complex number. This callback can be used to override the
 *   built-in numeric notation with any type of formatting. Function `callback`
 *   is called with `value` as parameter and must return a string.
 *
 * When `value` is an Object:
 *
 * - When the object contains a property `format` being a function, this function
 *   is invoked as `value.format(options)` and the result is returned.
 * - When the object has its own `toString` method, this method is invoked
 *   and the result is returned.
 * - In other cases the function will loop over all object properties and
 *   return JSON object notation like '{"a": 2, "b": 3}'.
 *
 * When value is a function:
 *
 * - When the function has a property `syntax`, it returns this
 *   syntax description.
 * - In other cases, a string `'function'` is returned.
 *
 * Examples:
 *
 *    math.format(6.4)                                        // returns '6.4'
 *    math.format(1240000)                                    // returns '1.24e6'
 *    math.format(1/3)                                        // returns '0.3333333333333333'
 *    math.format(1/3, 3)                                     // returns '0.333'
 *    math.format(21385, 2)                                   // returns '21000'
 *    math.format(12e8, {notation: 'fixed'})                  // returns '1200000000'
 *    math.format(2.3,  {notation: 'fixed', precision: 4})    // returns '2.3000'
 *    math.format(52.8, {notation: 'exponential'})            // returns '5.28e+1'
 *    math.format(12400,{notation: 'engineering'})            // returns '12.400e+3'
 *    math.format(2000, {lowerExp: -2, upperExp: 2})          // returns '2e+3'
 *
 *    function formatCurrency(value) {
 *      // return currency notation with two digits:
 *      return '$' + value.toFixed(2)
 *
 *      // you could also use math.format inside the callback:
 *      // return '$' + math.format(value, {notation: 'fixed', precision: 2})
 *    }
 *    math.format([2.1, 3, 0.016], formatCurrency}            // returns '[$2.10, $3.00, $0.02]'
 *
 * See also:
 *
 *    print
 *
 * @param {*} value                               Value to be stringified
 * @param {Object | Function | number} [options]  Formatting options
 * @return {string} The formatted value
 */
return typed(name, {
  any: formatString,
  'any, Object | function | number': formatString
});
114});
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1	`import { format as formatString } from '../../utils/string';`
2	`import { factory } from '../../utils/factory';`
3	`var name = 'format';`
4	`var dependencies = ['typed'];`
5	`export var createFormat =`
6	`/* #__PURE__ */`
7	`factory(name, dependencies, function (_ref) {`
8	`var typed = _ref.typed;`
9
10	`/**`
11	`* Format a value of any type into a string.`
12	`*`
13	`* Syntax:`
14	`*`
15	`* math.format(value)`
16	`* math.format(value, options)`
17	`* math.format(value, precision)`
18	`* math.format(value, callback)`
19	`*`
20	`* Where:`
21	`*`
22	* - `value: *`
23	`* The value to be formatted`
24	* - `options: Object`
25	`* An object with formatting options. Available options:`
26	* - `notation: string`
27	`* Number notation. Choose from:`
28	`* - 'fixed'`
29	`* Always use regular number notation.`
30	`* For example '123.40' and '14000000'`
31	`* - 'exponential'`
32	`* Always use exponential notation.`
33	`* For example '1.234e+2' and '1.4e+7'`
34	`* - 'engineering'`
35	`* Always use engineering notation.`
36	`* For example '123.4e+0' and '14.0e+6'`
37	`* - 'auto' (default)`
38	`* Regular number notation for numbers having an absolute value between`
39	* `lower` and `upper` bounds, and uses exponential notation elsewhere.
40	`* Lower bound is included, upper bound is excluded.`
41	`* For example '123.4' and '1.4e7'.`
42	* - `precision: number`
43	`* A number between 0 and 16 to round the digits of the number. In case`
44	* of notations 'exponential', 'engineering', and 'auto', `precision`
45	`* defines the total number of significant digits returned.`
46	* In case of notation 'fixed', `precision` defines the number of
47	`* significant digits after the decimal point.`
48	* `precision` is undefined by default.
49	* - `lowerExp: number`
50	`* Exponent determining the lower boundary for formatting a value with`
51	* an exponent when `notation='auto`. Default value is `-3`.
52	* - `upperExp: number`
53	`* Exponent determining the upper boundary for formatting a value with`
54	* an exponent when `notation='auto`. Default value is `5`.
55	* - `fraction: string`. Available values: 'ratio' (default) or 'decimal'.
56	* For example `format(fraction(1, 3))` will output '1/3' when 'ratio' is
57	* configured, and will output `0.(3)` when 'decimal' is configured.
58	* - `callback: function`
59	* A custom formatting function, invoked for all numeric elements in `value`,
60	`* for example all elements of a matrix, or the real and imaginary`
61	`* parts of a complex number. This callback can be used to override the`
62	* built-in numeric notation with any type of formatting. Function `callback`
63	* is called with `value` as parameter and must return a string.
64	`*`
65	* When `value` is an Object:
66	`*`
67	* - When the object contains a property `format` being a function, this function
68	* is invoked as `value.format(options)` and the result is returned.
69	* - When the object has its own `toString` method, this method is invoked
70	`* and the result is returned.`
71	`* - In other cases the function will loop over all object properties and`
72	`* return JSON object notation like '{"a": 2, "b": 3}'.`
73	`*`
74	`* When value is a function:`
75	`*`
76	* - When the function has a property `syntax`, it returns this
77	`* syntax description.`
78	* - In other cases, a string `'function'` is returned.
79	`*`
80	`* Examples:`
81	`*`
82	`* math.format(6.4) // returns '6.4'`
83	`* math.format(1240000) // returns '1.24e6'`
84	`* math.format(1/3) // returns '0.3333333333333333'`
85	`* math.format(1/3, 3) // returns '0.333'`
86	`* math.format(21385, 2) // returns '21000'`
87	`* math.format(12e8, {notation: 'fixed'}) // returns '1200000000'`
88	`* math.format(2.3, {notation: 'fixed', precision: 4}) // returns '2.3000'`
89	`* math.format(52.8, {notation: 'exponential'}) // returns '5.28e+1'`
90	`* math.format(12400,{notation: 'engineering'}) // returns '12.400e+3'`
91	`* math.format(2000, {lowerExp: -2, upperExp: 2}) // returns '2e+3'`
92	`*`
93	`* function formatCurrency(value) {`
94	`* // return currency notation with two digits:`
95	`* return '$' + value.toFixed(2)`
96	`*`
97	`* // you could also use math.format inside the callback:`
98	`* // return '$' + math.format(value, {notation: 'fixed', precision: 2})`
99	`* }`
100	`* math.format([2.1, 3, 0.016], formatCurrency} // returns '[$2.10, $3.00, $0.02]'`
101	`*`
102	`* See also:`
103	`*`
104	`* print`
105	`*`
106	`* @param {*} value Value to be stringified`
107	`* @param {Object \| Function \| number} [options] Formatting options`
108	`* @return {string} The formatted value`
109	`*/`
110	`return typed(name, {`
111	`any: formatString,`
112	`'any, Object \| function \| number': formatString`
113	`});`
114	`});`
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