118 lines
3.8 KiB
JavaScript
118 lines
3.8 KiB
JavaScript
import { createAlgorithm03 } from '../../type/matrix/utils/algorithm03.js';
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import { createAlgorithm07 } from '../../type/matrix/utils/algorithm07.js';
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import { createAlgorithm12 } from '../../type/matrix/utils/algorithm12.js';
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import { createAlgorithm13 } from '../../type/matrix/utils/algorithm13.js';
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import { createAlgorithm14 } from '../../type/matrix/utils/algorithm14.js';
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import { factory } from '../../utils/factory.js';
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import { xorNumber } from '../../plain/number/index.js';
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var name = 'xor';
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var dependencies = ['typed', 'matrix', 'DenseMatrix'];
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export var createXor = /* #__PURE__ */factory(name, dependencies, _ref => {
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var {
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typed,
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matrix,
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DenseMatrix
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} = _ref;
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var algorithm03 = createAlgorithm03({
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typed
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});
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var algorithm07 = createAlgorithm07({
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typed,
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DenseMatrix
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});
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var algorithm12 = createAlgorithm12({
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typed,
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DenseMatrix
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});
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var algorithm13 = createAlgorithm13({
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typed
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});
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var algorithm14 = createAlgorithm14({
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typed
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});
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/**
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* Logical `xor`. Test whether one and only one value is defined with a nonzero/nonempty value.
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* For matrices, the function is evaluated element wise.
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*
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* Syntax:
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*
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* math.xor(x, y)
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*
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* Examples:
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*
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* math.xor(2, 4) // returns false
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*
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* a = [2, 0, 0]
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* b = [2, 7, 0]
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* c = 0
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*
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* math.xor(a, b) // returns [false, true, false]
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* math.xor(a, c) // returns [true, false, false]
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*
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* See also:
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*
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* and, not, or
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*
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* @param {number | BigNumber | Complex | Unit | Array | Matrix} x First value to check
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* @param {number | BigNumber | Complex | Unit | Array | Matrix} y Second value to check
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* @return {boolean | Array | Matrix}
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* Returns true when one and only one input is defined with a nonzero/nonempty value.
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*/
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return typed(name, {
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'number, number': xorNumber,
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'Complex, Complex': function ComplexComplex(x, y) {
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return (x.re !== 0 || x.im !== 0) !== (y.re !== 0 || y.im !== 0);
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},
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'BigNumber, BigNumber': function BigNumberBigNumber(x, y) {
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return (!x.isZero() && !x.isNaN()) !== (!y.isZero() && !y.isNaN());
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},
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'Unit, Unit': function UnitUnit(x, y) {
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return this(x.value || 0, y.value || 0);
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},
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'SparseMatrix, SparseMatrix': function SparseMatrixSparseMatrix(x, y) {
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return algorithm07(x, y, this);
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},
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'SparseMatrix, DenseMatrix': function SparseMatrixDenseMatrix(x, y) {
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return algorithm03(y, x, this, true);
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},
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'DenseMatrix, SparseMatrix': function DenseMatrixSparseMatrix(x, y) {
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return algorithm03(x, y, this, false);
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},
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'DenseMatrix, DenseMatrix': function DenseMatrixDenseMatrix(x, y) {
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return algorithm13(x, y, this);
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},
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'Array, Array': function ArrayArray(x, y) {
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// use matrix implementation
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return this(matrix(x), matrix(y)).valueOf();
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},
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'Array, Matrix': function ArrayMatrix(x, y) {
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// use matrix implementation
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return this(matrix(x), y);
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},
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'Matrix, Array': function MatrixArray(x, y) {
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// use matrix implementation
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return this(x, matrix(y));
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},
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'SparseMatrix, any': function SparseMatrixAny(x, y) {
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return algorithm12(x, y, this, false);
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},
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'DenseMatrix, any': function DenseMatrixAny(x, y) {
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return algorithm14(x, y, this, false);
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},
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'any, SparseMatrix': function anySparseMatrix(x, y) {
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return algorithm12(y, x, this, true);
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},
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'any, DenseMatrix': function anyDenseMatrix(x, y) {
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return algorithm14(y, x, this, true);
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},
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'Array, any': function ArrayAny(x, y) {
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// use matrix implementation
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return algorithm14(matrix(x), y, this, false).valueOf();
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},
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'any, Array': function anyArray(x, y) {
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// use matrix implementation
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return algorithm14(matrix(y), x, this, true).valueOf();
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}
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});
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}); |