1
0
mirror of https://github.com/kremalicious/metamask-extension.git synced 2024-12-23 09:52:26 +01:00
metamask-extension/shared/modules/Numeric.ts
2023-02-09 10:49:39 -06:00

622 lines
20 KiB
TypeScript

import { BigNumber } from 'bignumber.js';
import BN from 'bn.js';
import { isHexString, isNullOrUndefined } from '@metamask/utils';
import { addHexPrefix } from 'ethereumjs-util';
import { EtherDenomination } from '../constants/common';
import { stripHexPrefix } from './hexstring-utils';
export type NumericValue = string | number | BN | BigNumber;
export type NumericBase = 10 | 16;
/**
* All variations of isHexString from our own utilities and etherumjs-utils
* return false for a '-' prefixed hex string. This utility method strips the
* possible '-' from the string before testing its validity so that negative
* hex values can be properly handled.
*
* @param value - The string to check
* @returns true if the value is a hex string (negative or otherwise)
*/
function isHexStringOrNegatedHexString(value: string): value is string {
return isHexString(value.replace('-', '')) || isHexString(value);
}
/**
* BigNumber supports hex strings with '.' (aka decimals) in the string.
* No version of isHexString returs true if the string contains a decimal so
* this method is used to check if both parts of the string split by the
* decimal are hex strings. If so we can feed this value into BigNumber to get
* a valid Numeric.
*
* @param value - The string to check
* @returns true if the string is a hexadecimal split by '.'
*/
function isDecimalHex(value: string): boolean {
const parts = value.split('.');
if (parts.length === 1) {
return false;
}
return parts.every((part) => isHexStringOrNegatedHexString(part));
}
/**
* Converts a hexadecimal in string or number format to a BigNumber.
* Note that in many places in our codebase we call 'addHexPrefix' on a negated
* hexadecimal string resulting in '0x-a' which will fail checks for
* isHexString. Sometimes we DO not add the 0x so we have to check for '-a'
* as well.
*
* @param value - hexadecimal value in string or number format.
* @returns A BigNumber representation of the value
*/
function hexadecimalToBigNumber(value: string | number): BigNumber {
const stringified = typeof value === 'number' ? `${value}` : value;
const isNegative = stripHexPrefix(stringified)[0] === '-';
const valueWithoutNegation = stringified.replace('-', '');
const valueAsBigNumber = new BigNumber(
stripHexPrefix(valueWithoutNegation),
16,
);
return isNegative ? valueAsBigNumber.negated() : valueAsBigNumber;
}
/**
* Converts a decimal in string or number format to a BigNumber.
*
* @param value - decimal value in string or number format.
* @returns A BigNumber representation of the value
*/
function decimalToBigNumber(value: string | number) {
return new BigNumber(String(value), 10);
}
/**
* This method is used to safely convert a string type value to a BigNumber.
* The only valid strings for this method are those that are either hexadecimal
* numeric values OR numeric strings that can be converted to BigNumbers. It is
* impossible to tell the difference between a hex value of 100000 vs a decimal
* value of 100000 so a second parameter indicating the numeric base of the
* string value must be provided.
*
* @param value - A hexadecimal or decimal string
* @param numericBase - Either 16 for a hexadeciaml or 10 for a decimal
* @returns A BigNumber representation of the value
*/
function stringToBigNumber(value: string, numericBase: NumericBase) {
if (typeof value !== 'string') {
throw new Error(
`Value of type ${typeof value} passed to stringToBigNumber`,
);
}
if (
numericBase === 16 &&
(isHexStringOrNegatedHexString(value) || isDecimalHex(value))
) {
return hexadecimalToBigNumber(value);
} else if (
numericBase === 10 &&
// check if we have a finite integer or float
(isFinite(parseInt(value, 10)) || isFinite(parseFloat(value)))
) {
return decimalToBigNumber(value);
}
throw new Error(
`String provided to stringToBigNumber is not a hexadecimal or decimal string: ${value}, ${numericBase}`,
);
}
/**
* This method will convert a hexadecimal or deciaml number into a BigNumber.
* The second parameter must be supplied and determines whether to treat the
* value as a hexadecimal or decimal value.
*
* @param value - hexadecimal or decimal number[]
* @param numericBase - 10 for decimal, 16 for hexadecimal
* @returns BigNumber representation of the value
*/
function numberToBigNumber(value: number, numericBase: NumericBase) {
if (typeof value !== 'number') {
throw new Error(
`Value of type ${typeof value} passed to numberToBigNumber`,
);
}
if (numericBase === 16 && isHexString(`${value}`)) {
return new BigNumber(`${value}`, 16);
}
return new BigNumber(value, 10);
}
/**
* Method to convert a BN to a BigNumber
*
* @param value - A BN representation of a value
* @returns A BigNumber representation of the BN's underlying value
*/
function bnToBigNumber(value: BN) {
if (value instanceof BN === false) {
throw new Error(
`value passed to bnToBigNumber is not a BN. Received type ${typeof value}`,
);
}
return new BigNumber(value.toString(16), 16);
}
/**
* Converts a value of the supported types (string, number, BN) to a BigNumber.
*
* @param value - The value to convert to a BigNumber
* @param numericBase - The numeric base of the underlying value
* @returns A BigNumber representation of the value
*/
function valueToBigNumber(value: string | number, numericBase: NumericBase) {
if (typeof value === 'string') {
return stringToBigNumber(value, numericBase);
} else if (typeof value === 'number' && isNaN(value) === false) {
return numberToBigNumber(value, numericBase);
}
throw new Error(
`Value: ${value} is not a string, number, BigNumber or BN. Type is: ${typeof value}.`,
);
}
// Big Number Constants
const BIG_NUMBER_WEI_MULTIPLIER = new BigNumber('1000000000000000000');
const BIG_NUMBER_GWEI_MULTIPLIER = new BigNumber('1000000000');
const BIG_NUMBER_ETH_MULTIPLIER = new BigNumber('1');
const toNormalizedDenomination = {
WEI: (bigNumber: BigNumber) => bigNumber.div(BIG_NUMBER_WEI_MULTIPLIER),
GWEI: (bigNumber: BigNumber) => bigNumber.div(BIG_NUMBER_GWEI_MULTIPLIER),
ETH: (bigNumber: BigNumber) => bigNumber.div(BIG_NUMBER_ETH_MULTIPLIER),
};
const toSpecifiedDenomination = {
WEI: (bigNumber: BigNumber) =>
bigNumber.times(BIG_NUMBER_WEI_MULTIPLIER).round(),
GWEI: (bigNumber: BigNumber) =>
bigNumber.times(BIG_NUMBER_GWEI_MULTIPLIER).round(9),
ETH: (bigNumber: BigNumber) =>
bigNumber.times(BIG_NUMBER_ETH_MULTIPLIER).round(9),
};
/**
* Gets the value in ETH of the numeric supplied, used in this file only to
* convert to ETH prior to converting to another denomination. The following
* quirks were programmed into this method to replicate behavior of the
* predecessor to Numeric, which was 'conversionUtil'. If a denomination is
* not supplied, and toDenomination is called, then we assume the denomination
* was originally ETH, otherwise we convert it to ETH.
*
* @param numeric
* @returns value in ETH
*/
function getValueInETH(numeric: Numeric) {
if (
numeric.denomination === EtherDenomination.ETH ||
typeof numeric.denomination === 'undefined'
) {
return numeric.value;
}
return toNormalizedDenomination[numeric.denomination](numeric.value);
}
/**
* When applying operands to Numerics that have a specified Denomination then
* we should first convert the provided inputNumeric to the same Denomination
* as the baseNumeric. There are cases where this doesn't apply:
*
* 1. If the denominations are already the same. No conversion is necessary.
* 2. If the inputNumeric does not have a denomination set. We assume in this
* case that the value is already in the appropriate denomination.
*
* @param baseNumeric
* @param inputNumeric
* @returns
*/
function alignOperandDenominations(
baseNumeric: Numeric,
inputNumeric: Numeric,
) {
if (
typeof inputNumeric.denomination !== 'undefined' &&
baseNumeric.denomination !== inputNumeric.denomination
) {
return inputNumeric.toDenomination(baseNumeric.denomination);
}
return inputNumeric;
}
/**
* Numeric is a class whose methods will always return a new, not mutated,
* value. This allows for chaining of non-terminating methods. Previously we
* had near a hundred helper methods that composed one-another, making tracking
* through the chain near impossible. This API is designed such that no helper
* methods should be needed. Take the case of hexWEIToDecGWEI, a helper method
* for taking a hex string representing a value in WEI and converting that to a
* decimal of GWEI. Prior to this class the method would call into our root
* level 'conversionUtil' which was the proverbial kitchen sink doing
* everything from denomination conversion, currency conversion (with provided
* conversionRate prop) and more. The same opeartion can now be expressed as:
* new Numeric(hexString, 16, EtherDenomination.WEI)
* .toDenomination(EtherDenomination.GWEI)
* .toBase(10)
* .toString();
* This has the benefit of being fairly transparent as you can read each step
* in the chain and have a good sense of what is being done. It also is highly
* composable so that we shouldn't need tons of helper methods for shortcuts.
*/
export class Numeric {
/**
* The underlying value of the Numeric, always in BigNumber form
*/
value: BigNumber;
/**
* The numeric base for this Numeric, either 10 for decimal or 16 for Hex
*/
base?: NumericBase;
/**
* The current denomination, if any. The only supported denominations are
* ETH, GWEI, WEI.
*/
denomination?: EtherDenomination;
constructor(
value: NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
this.base = base;
this.denomination = denomination;
if (value instanceof BigNumber) {
this.value = value;
} else if (value instanceof BN) {
this.value = bnToBigNumber(value);
} else if (
isNullOrUndefined(value) ||
(typeof value === 'number' && isNaN(value)) ||
(typeof value === 'string' && value === '')
) {
// There are parts of the codebase that call this method without a value,
// or with a 'NaN' (which is probably a bug somewhere in our tests?).
// Over time of converting to TypeScript we will eradicate those, but the
// helper methods that those instances employ would default the value to
// 0. This block keeps that intact.
this.value = new BigNumber('0', 10);
this.base = 10;
} else if (base) {
this.value = valueToBigNumber(value, base);
} else {
throw new Error(
`You must specify the base of the provided number if the value is not already a BigNumber`,
);
}
}
/**
* This is a tool used internally to check if a value is already a Numeric
* and return it if it is, otherwise it uses the other provided arguments to
* create a new Numeric.
*
* @param value - The value of the Numeric
* @param base - Either undefined, 10 for decimal or 16 for hexadecimal
* @param denomination - The Ether denomination to set, if any
*/
static from(
value: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
if (value instanceof Numeric) {
if (base || denomination) {
throw new Error(
`Numeric.from was called with a value (${value.toString()}) that is already a Numeric but a base and/or denomination was provided. Only supply base or denomination when creating a new Numeric`,
);
}
return value;
}
return new Numeric(value, base, denomination);
}
/** Conversions */
/**
* Returns a new Numeric with the base value changed to the provided base,
* or the original Numeric if the base provided is the same as the current
* base. No computation or conversion happens here but rather the result of
* toString will be changed depending on the value of this.base when that
* method is invoked.
*
* @param base - The numeric base to change the Numeric to, either 10 or 16
* @returns A new Numeric with the base updated
*/
toBase(base: NumericBase) {
if (this.base !== base) {
return new Numeric(this.value, base, this.denomination);
}
return this;
}
/**
* Converts the value to the specified denomination. The following quirks of
* the predecessor to Numeric, 'conversionUtil', were programmed into this
* method:
* 1. You may supply a denomination that is undefined, which will result in
* nothing happening. Coincidently this is also useful due to the nature of
* chaining operations on Numeric. You may pass an undefined value in this
* method without breaking the chain to conditionally apply a operator.
* 2. If the numeric that .toDenomination is called on does not have a
* denomination set, that is it was constructed without the third parameter,
* then it is assumed to be in ETH. Otherwise we convert it to ETH prior to
* attempting to convert it to another denomination because all of the
* toSpecifiedDenomination methods assume a value in ETH is passed.
*
* @param denomination - The denomination to convert to
* @returns A new numeric with the same base as the previous, but the
* value and denomination changed accordingly
*/
toDenomination(denomination?: EtherDenomination) {
if (denomination && this.denomination !== denomination) {
const result = new Numeric(
toSpecifiedDenomination[denomination](getValueInETH(this)),
this.base,
denomination,
);
return result;
}
return this;
}
/**
* Replicates a method of BigNumber that is not in the version of BigNumber
* that we use currently. Essentially shifting the decimal point backwards by
* an amount equal to the positive number supplied to the decimals operator.
* For example, calling shiftedBy(10) on the value 10000000000 will result in
* a value of 1.0000000000. If passing a negative number, then the decimal
* position will move forward. 1.0000000000 shiftedBy(-10) yields 10000000000
*
* @param decimals - The number of decimal places to move. Positive moves
* decimal backwards, creating a smaller number. Negative values move the
* decimal forwards, creating a larger number.
* @returns A new numeric with the same base and denomination as the current
* but with a new value.
*/
shiftedBy(decimals: number) {
const powerOf = new Numeric(Math.pow(10, decimals), 10);
return this.divide(powerOf);
}
/**
* Applies a conversion rate to the Numeric. If rate is undefined returns the
* same instance that was operated on. Allowing an undefined value makes
* chaining this operator feasible with undefined values from the user or
* state without manipulating the number. For example:
*
* new Numeric(5, 10)
* .applyConversionRate(possiblyUndefinedRate)
* .toBase(16)
* .toString();
*
* Will return a valid result as long as possiblyUndefinedRate is undefined,
* a BigNumber or a number. In some areas of the codebase we check to see if
* the target currency is different from the current currency before applying
* a conversionRate. This functionality is not built into Numeric and will
* require breaking the chain before calling this method:
* let value = new Numeric(5, 10);
*
* if (fromCurrency !== toCurrency) {
* value = value.applyConversionRate(possiblyUndefinedRate);
* }
*
* return value.toBase(16).toString();
*
* @param rate - The multiplier to apply
* @param invert - if true, inverts the rate
* @returns New Numeric value with conversion rate applied.
*/
applyConversionRate(rate?: number | BigNumber, invert?: boolean) {
if (typeof rate === 'undefined') {
return this;
}
let conversionRate = new Numeric(rate, 10);
if (invert) {
conversionRate = new Numeric(new BigNumber(1.0)).divide(conversionRate);
}
return this.times(conversionRate);
}
round(
numberOfDecimals?: number,
roundingMode: number = BigNumber.ROUND_HALF_DOWN,
) {
if (typeof numberOfDecimals === 'number') {
return new Numeric(
this.value.round(numberOfDecimals, roundingMode),
this.base,
this.denomination,
);
}
return this;
}
/**
* TODO: make it possible to add ETH + GWEI value. So if you have
* Numeric 1 with denomination ETH and Numeric 2 with Denomination WEI,
* first convert Numeric 2 to ETH then add the amount to Numeric 1.
*
* @param value
* @param base
* @param denomination
*/
add(
value: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
const numeric = Numeric.from(value, base, denomination);
return new Numeric(
this.value.add(alignOperandDenominations(this, numeric).value),
this.base,
this.denomination,
);
}
/**
* TODO: make it possible to subtract ETH - GWEI value. So if you have
* Numeric 1 with denomination ETH and Numeric 2 with Denomination WEI,
* first convert Numeric 2 to ETH then subtract the amount from Numeric 1.
*
* @param value
* @param base
* @param denomination
*/
minus(
value: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
const numeric = Numeric.from(value, base, denomination);
return new Numeric(
this.value.minus(alignOperandDenominations(this, numeric).value),
this.base,
this.denomination,
);
}
times(
multiplier: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
const multiplierNumeric = Numeric.from(multiplier, base, denomination);
return new Numeric(
this.value.times(
alignOperandDenominations(this, multiplierNumeric).value,
),
this.base,
this.denomination,
);
}
/**
* Divides the Numeric by another supplied Numeric, carrying over the base
* and denomination from the current Numeric.
*
* @param divisor - The Numeric to divide this Numeric by
* @param base
* @param denomination
* @returns A new Numeric that contains the result of the division
*/
divide(
divisor: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
return new Numeric(
this.value.div(
alignOperandDenominations(
this,
Numeric.from(divisor, base, denomination),
).value,
),
this.base,
this.denomination,
);
}
greaterThan(
comparator: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
return this.value.greaterThan(
Numeric.from(comparator, base, denomination).value,
);
}
greaterThanOrEqualTo(
comparator: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
return this.value.greaterThanOrEqualTo(
Numeric.from(comparator, base, denomination).value,
);
}
lessThan(
comparator: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
return this.value.lessThan(
Numeric.from(comparator, base, denomination).value,
);
}
lessThanOrEqualTo(
comparator: Numeric | NumericValue,
base?: NumericBase,
denomination?: EtherDenomination,
) {
return this.value.lessThanOrEqualTo(
Numeric.from(comparator, base, denomination).value,
);
}
isNegative() {
return this.value.isNegative();
}
isPositive() {
return this.isNegative() === false;
}
/**
* Get a base 16 hexadecimal string representation of the Numeric that is
* 0x prefixed. This operation bypasses the currently set base of the
* Numeric.
*
* @returns 0x prefixed hexstring.
*/
toPrefixedHexString() {
return addHexPrefix(this.value.toString(16));
}
/**
* Gets the string representation of the Numeric, using the current value of
* this.base to determine if it should be a decimal or hexadecimal string.
*
* @returns the string representation of the Numeric
*/
toString() {
return this.value.toString(this.base);
}
/**
* Returns a fixed-point decimal string representation of the Numeric
*
* @param decimals - the amount of decimal precision to use when rounding
* @returns A fixed point decimal string represenation of the Numeric
*/
toFixed(decimals: number) {
return this.value.toFixed(decimals);
}
/**
* Converts the value to a JavaScript Number, with all of the inaccuracy that
* could come with that.
*
* @returns The value as a JS Number
*/
toNumber() {
return this.value.toNumber();
}
}