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metamask-extension/ui/helpers/utils/conversion-util.js

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/* Currency Conversion Utility
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* This utility function can be used for converting currency related values within metamask.
* The caller should be able to pass it a value, along with information about the value's
* numeric base, denomination and currency, and the desired numeric base, denomination and
* currency. It should return a single value.
*
* @param {(number | string | BN)} value - The value to convert.
* @param {Object} [options] - Options to specify details of the conversion
* @param {string} [options.fromCurrency = 'ETH' | 'USD'] - The currency of the passed value
* @param {string} [options.toCurrency = 'ETH' | 'USD'] - The desired currency of the result
* @param {string} [options.fromNumericBase = 'hex' | 'dec' | 'BN'] - The numeric basic of the passed value.
* @param {string} [options.toNumericBase = 'hex' | 'dec' | 'BN'] - The desired numeric basic of the result.
* @param {string} [options.fromDenomination = 'WEI'] - The denomination of the passed value
* @param {string} [options.numberOfDecimals] - The desired number of decimals in the result
* @param {string} [options.roundDown] - The desired number of decimals to round down to
* @param {number} [options.conversionRate] - The rate to use to make the fromCurrency -> toCurrency conversion
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* @returns {(number | string | BN)}
*
* The utility passes value along with the options as a single object to the `converter` function.
* `converter` conditional modifies the supplied `value` property, depending
* on the accompanying options.
*/
import BigNumber from 'bignumber.js';
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import { stripHexPrefix, BN } from 'ethereumjs-util';
// 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');
// Setter Maps
const toBigNumber = {
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hex: (n) => new BigNumber(stripHexPrefix(n), 16),
dec: (n) => new BigNumber(String(n), 10),
BN: (n) => new BigNumber(n.toString(16), 16),
};
const toNormalizedDenomination = {
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WEI: (bigNumber) => bigNumber.div(BIG_NUMBER_WEI_MULTIPLIER),
GWEI: (bigNumber) => bigNumber.div(BIG_NUMBER_GWEI_MULTIPLIER),
ETH: (bigNumber) => bigNumber.div(BIG_NUMBER_ETH_MULTIPLIER),
};
const toSpecifiedDenomination = {
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WEI: (bigNumber) => bigNumber.times(BIG_NUMBER_WEI_MULTIPLIER).round(),
GWEI: (bigNumber) => bigNumber.times(BIG_NUMBER_GWEI_MULTIPLIER).round(9),
ETH: (bigNumber) => bigNumber.times(BIG_NUMBER_ETH_MULTIPLIER).round(9),
};
const baseChange = {
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hex: (n) => n.toString(16),
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dec: (n) => new BigNumber(n).toString(10),
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BN: (n) => new BN(n.toString(16)),
};
// Utility function for checking base types
const isValidBase = (base) => {
return Number.isInteger(base) && base > 1;
};
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/**
* Defines the base type of numeric value
* @typedef {('hex' | 'dec' | 'BN')} NumericBase
*/
/**
* Defines which type of denomination a value is in
* @typedef {('WEI' | 'GWEI' | 'ETH')} EthDenomination
*/
/**
* Utility method to convert a value between denominations, formats and currencies.
* @param {Object} input
* @param {string | BigNumber} input.value
* @param {NumericBase} input.fromNumericBase
* @param {EthDenomination} [input.fromDenomination]
* @param {string} [input.fromCurrency]
* @param {NumericBase} input.toNumericBase
* @param {EthDenomination} [input.toDenomination]
* @param {string} [input.toCurrency]
* @param {number} [input.numberOfDecimals]
* @param {number} [input.conversionRate]
* @param {boolean} [input.invertConversionRate]
* @param {string} [input.roundDown]
*/
const converter = ({
value,
fromNumericBase,
fromDenomination,
fromCurrency,
toNumericBase,
toDenomination,
toCurrency,
numberOfDecimals,
conversionRate,
invertConversionRate,
roundDown,
}) => {
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let convertedValue = fromNumericBase
? toBigNumber[fromNumericBase](value)
: value;
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if (fromDenomination) {
convertedValue = toNormalizedDenomination[fromDenomination](convertedValue);
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}
if (fromCurrency !== toCurrency) {
if (conversionRate === null || conversionRate === undefined) {
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throw new Error(
`Converting from ${fromCurrency} to ${toCurrency} requires a conversionRate, but one was not provided`,
);
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}
let rate = toBigNumber.dec(conversionRate);
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if (invertConversionRate) {
rate = new BigNumber(1.0).div(conversionRate);
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}
convertedValue = convertedValue.times(rate);
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}
if (toDenomination) {
convertedValue = toSpecifiedDenomination[toDenomination](convertedValue);
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}
if (numberOfDecimals) {
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convertedValue = convertedValue.round(
numberOfDecimals,
BigNumber.ROUND_HALF_DOWN,
);
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}
if (roundDown) {
convertedValue = convertedValue.round(roundDown, BigNumber.ROUND_DOWN);
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}
if (toNumericBase) {
convertedValue = baseChange[toNumericBase](convertedValue);
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}
return convertedValue;
};
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const conversionUtil = (
value,
{
fromCurrency = null,
toCurrency = fromCurrency,
fromNumericBase,
toNumericBase,
fromDenomination,
toDenomination,
numberOfDecimals,
conversionRate,
invertConversionRate,
},
) => {
if (fromCurrency !== toCurrency && !conversionRate) {
return 0;
}
return converter({
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fromCurrency,
toCurrency,
fromNumericBase,
toNumericBase,
fromDenomination,
toDenomination,
numberOfDecimals,
conversionRate,
invertConversionRate,
value: value || '0',
});
};
const getBigNumber = (value, base) => {
if (!isValidBase(base)) {
throw new Error('Must specificy valid base');
}
// We don't include 'number' here, because BigNumber will throw if passed
// a number primitive it considers unsafe.
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if (typeof value === 'string' || value instanceof BigNumber) {
return new BigNumber(value, base);
}
return new BigNumber(String(value), base);
};
const addCurrencies = (a, b, options = {}) => {
const { aBase, bBase, ...conversionOptions } = options;
if (!isValidBase(aBase) || !isValidBase(bBase)) {
throw new Error('Must specify valid aBase and bBase');
}
const value = getBigNumber(a, aBase).add(getBigNumber(b, bBase));
return converter({
value,
...conversionOptions,
});
};
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const subtractCurrencies = (a, b, options = {}) => {
const { aBase, bBase, ...conversionOptions } = options;
if (!isValidBase(aBase) || !isValidBase(bBase)) {
throw new Error('Must specify valid aBase and bBase');
}
const value = getBigNumber(a, aBase).minus(getBigNumber(b, bBase));
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return converter({
value,
...conversionOptions,
});
};
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const multiplyCurrencies = (a, b, options = {}) => {
const { multiplicandBase, multiplierBase, ...conversionOptions } = options;
if (!isValidBase(multiplicandBase) || !isValidBase(multiplierBase)) {
throw new Error('Must specify valid multiplicandBase and multiplierBase');
}
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const value = getBigNumber(a, multiplicandBase).times(
getBigNumber(b, multiplierBase),
);
return converter({
value,
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...conversionOptions,
});
};
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const conversionGreaterThan = ({ ...firstProps }, { ...secondProps }) => {
const firstValue = converter({ ...firstProps });
const secondValue = converter({ ...secondProps });
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return firstValue.gt(secondValue);
};
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const conversionLessThan = ({ ...firstProps }, { ...secondProps }) => {
const firstValue = converter({ ...firstProps });
const secondValue = converter({ ...secondProps });
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return firstValue.lt(secondValue);
};
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const conversionMax = ({ ...firstProps }, { ...secondProps }) => {
const firstIsGreater = conversionGreaterThan(
{ ...firstProps },
{ ...secondProps },
);
return firstIsGreater ? firstProps.value : secondProps.value;
};
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const conversionGTE = ({ ...firstProps }, { ...secondProps }) => {
const firstValue = converter({ ...firstProps });
const secondValue = converter({ ...secondProps });
return firstValue.greaterThanOrEqualTo(secondValue);
};
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const conversionLTE = ({ ...firstProps }, { ...secondProps }) => {
const firstValue = converter({ ...firstProps });
const secondValue = converter({ ...secondProps });
return firstValue.lessThanOrEqualTo(secondValue);
};
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const toNegative = (n, options = {}) => {
return multiplyCurrencies(n, -1, options);
};
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export {
conversionUtil,
addCurrencies,
multiplyCurrencies,
conversionGreaterThan,
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conversionLessThan,
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conversionGTE,
conversionLTE,
conversionMax,
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toNegative,
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subtractCurrencies,
};