source: trip-planner-front/node_modules/@angular/compiler/src/i18n/big_integer.d.ts@ eed0bf8

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1/**
2 * @license
3 * Copyright Google LLC All Rights Reserved.
4 *
5 * Use of this source code is governed by an MIT-style license that can be
6 * found in the LICENSE file at https://angular.io/license
7 */
8/**
9 * Represents a big integer using a buffer of its individual digits, with the least significant
10 * digit stored at the beginning of the array (little endian).
11 *
12 * For performance reasons, each instance is mutable. The addition operation can be done in-place
13 * to reduce memory pressure of allocation for the digits array.
14 */
15export declare class BigInteger {
16 private readonly digits;
17 static zero(): BigInteger;
18 static one(): BigInteger;
19 /**
20 * Creates a big integer using its individual digits in little endian storage.
21 */
22 private constructor();
23 /**
24 * Creates a clone of this instance.
25 */
26 clone(): BigInteger;
27 /**
28 * Returns a new big integer with the sum of `this` and `other` as its value. This does not mutate
29 * `this` but instead returns a new instance, unlike `addToSelf`.
30 */
31 add(other: BigInteger): BigInteger;
32 /**
33 * Adds `other` to the instance itself, thereby mutating its value.
34 */
35 addToSelf(other: BigInteger): void;
36 /**
37 * Builds the decimal string representation of the big integer. As this is stored in
38 * little endian, the digits are concatenated in reverse order.
39 */
40 toString(): string;
41}
42/**
43 * Represents a big integer which is optimized for multiplication operations, as its power-of-twos
44 * are memoized. See `multiplyBy()` for details on the multiplication algorithm.
45 */
46export declare class BigIntForMultiplication {
47 /**
48 * Stores all memoized power-of-twos, where each index represents `this.number * 2^index`.
49 */
50 private readonly powerOfTwos;
51 constructor(value: BigInteger);
52 /**
53 * Returns the big integer itself.
54 */
55 getValue(): BigInteger;
56 /**
57 * Computes the value for `num * b`, where `num` is a JS number and `b` is a big integer. The
58 * value for `b` is represented by a storage model that is optimized for this computation.
59 *
60 * This operation is implemented in N(log2(num)) by continuous halving of the number, where the
61 * least-significant bit (LSB) is tested in each iteration. If the bit is set, the bit's index is
62 * used as exponent into the power-of-two multiplication of `b`.
63 *
64 * As an example, consider the multiplication num=42, b=1337. In binary 42 is 0b00101010 and the
65 * algorithm unrolls into the following iterations:
66 *
67 * Iteration | num | LSB | b * 2^iter | Add? | product
68 * -----------|------------|------|------------|------|--------
69 * 0 | 0b00101010 | 0 | 1337 | No | 0
70 * 1 | 0b00010101 | 1 | 2674 | Yes | 2674
71 * 2 | 0b00001010 | 0 | 5348 | No | 2674
72 * 3 | 0b00000101 | 1 | 10696 | Yes | 13370
73 * 4 | 0b00000010 | 0 | 21392 | No | 13370
74 * 5 | 0b00000001 | 1 | 42784 | Yes | 56154
75 * 6 | 0b00000000 | 0 | 85568 | No | 56154
76 *
77 * The computed product of 56154 is indeed the correct result.
78 *
79 * The `BigIntForMultiplication` representation for a big integer provides memoized access to the
80 * power-of-two values to reduce the workload in computing those values.
81 */
82 multiplyBy(num: number): BigInteger;
83 /**
84 * See `multiplyBy()` for details. This function allows for the computed product to be added
85 * directly to the provided result big integer.
86 */
87 multiplyByAndAddTo(num: number, result: BigInteger): void;
88 /**
89 * Computes and memoizes the big integer value for `this.number * 2^exponent`.
90 */
91 private getMultipliedByPowerOfTwo;
92}
93/**
94 * Represents an exponentiation operation for the provided base, of which exponents are computed and
95 * memoized. The results are represented by a `BigIntForMultiplication` which is tailored for
96 * multiplication operations by memoizing the power-of-twos. This effectively results in a matrix
97 * representation that is lazily computed upon request.
98 */
99export declare class BigIntExponentiation {
100 private readonly base;
101 private readonly exponents;
102 constructor(base: number);
103 /**
104 * Compute the value for `this.base^exponent`, resulting in a big integer that is optimized for
105 * further multiplication operations.
106 */
107 toThePowerOf(exponent: number): BigIntForMultiplication;
108}
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