235 lines
7.5 KiB
JavaScript
235 lines
7.5 KiB
JavaScript
import { isAccessorNode, isArrayNode, isConstantNode, isFunctionNode, isIndexNode, isObjectNode, isOperatorNode } from '../../utils/is.js';
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import { createUtil } from './simplify/util.js';
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import { factory } from '../../utils/factory.js';
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var name = 'simplifyCore';
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var dependencies = ['equal', 'isZero', 'add', 'subtract', 'multiply', 'divide', 'pow', 'AccessorNode', 'ArrayNode', 'ConstantNode', 'FunctionNode', 'IndexNode', 'ObjectNode', 'OperatorNode', 'ParenthesisNode', 'SymbolNode'];
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export var createSimplifyCore = /* #__PURE__ */factory(name, dependencies, _ref => {
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var {
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equal,
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isZero,
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add,
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subtract,
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multiply,
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divide,
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pow,
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AccessorNode,
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ArrayNode,
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ConstantNode,
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FunctionNode,
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IndexNode,
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ObjectNode,
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OperatorNode,
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ParenthesisNode,
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SymbolNode
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} = _ref;
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var node0 = new ConstantNode(0);
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var node1 = new ConstantNode(1);
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var {
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hasProperty,
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isCommutative
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} = createUtil({
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FunctionNode,
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OperatorNode,
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SymbolNode
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});
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/**
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* simplifyCore() performs single pass simplification suitable for
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* applications requiring ultimate performance. In contrast, simplify()
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* extends simplifyCore() with additional passes to provide deeper
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* simplification.
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*
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* Syntax:
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*
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* simplifyCore(expr)
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*
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* Examples:
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*
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* const f = math.parse('2 * 1 * x ^ (2 - 1)')
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* math.simpifyCore(f) // Node {2 * x}
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* math.simplify('2 * 1 * x ^ (2 - 1)', [math.simplifyCore]) // Node {2 * x}
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*
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* See also:
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*
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* simplify, resolve, derivative
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*
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* @param {Node} node
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* The expression to be simplified
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* @param {Object} options
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* Simplification options, as per simplify()
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* @return {Node} Returns expression with basic simplifications applied
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*/
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function simplifyCore(node, options) {
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var context = options ? options.context : undefined;
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if (hasProperty(node, 'trivial', context)) {
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// This node does nothing if it has only one argument, so if so,
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// return that argument simplified
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if (isFunctionNode(node) && node.args.length === 1) {
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return simplifyCore(node.args[0], options);
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} // For other node types, we try the generic methods
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var simpChild = false;
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var childCount = 0;
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node.forEach(c => {
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++childCount;
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if (childCount === 1) {
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simpChild = simplifyCore(c, options);
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}
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});
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if (childCount === 1) {
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return simpChild;
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}
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}
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if (isOperatorNode(node) && node.isUnary()) {
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var a0 = simplifyCore(node.args[0], options);
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if (node.op === '-') {
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// unary minus
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if (isOperatorNode(a0)) {
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if (a0.isUnary() && a0.op === '-') {
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return a0.args[0];
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} else if (a0.isBinary() && a0.fn === 'subtract') {
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return new OperatorNode('-', 'subtract', [a0.args[1], a0.args[0]]);
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}
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}
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return new OperatorNode(node.op, node.fn, [a0]);
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}
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} else if (isOperatorNode(node) && node.isBinary()) {
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var _a = simplifyCore(node.args[0], options);
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var a1 = simplifyCore(node.args[1], options);
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if (node.op === '+') {
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if (isConstantNode(_a)) {
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if (isZero(_a.value)) {
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return a1;
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} else if (isConstantNode(a1)) {
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return new ConstantNode(add(_a.value, a1.value));
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}
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}
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if (isConstantNode(a1) && isZero(a1.value)) {
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return _a;
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}
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if (isOperatorNode(a1) && a1.isUnary() && a1.op === '-') {
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return new OperatorNode('-', 'subtract', [_a, a1.args[0]]);
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}
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return new OperatorNode(node.op, node.fn, a1 ? [_a, a1] : [_a]);
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} else if (node.op === '-') {
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if (isConstantNode(_a) && a1) {
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if (isConstantNode(a1)) {
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return new ConstantNode(subtract(_a.value, a1.value));
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} else if (isZero(_a.value)) {
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return new OperatorNode('-', 'unaryMinus', [a1]);
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}
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} // if (node.fn === "subtract" && node.args.length === 2) {
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if (node.fn === 'subtract') {
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if (isConstantNode(a1) && isZero(a1.value)) {
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return _a;
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}
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if (isOperatorNode(a1) && a1.isUnary() && a1.op === '-') {
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return simplifyCore(new OperatorNode('+', 'add', [_a, a1.args[0]]), options);
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}
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return new OperatorNode(node.op, node.fn, [_a, a1]);
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}
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} else if (node.op === '*') {
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if (isConstantNode(_a)) {
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if (isZero(_a.value)) {
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return node0;
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} else if (equal(_a.value, 1)) {
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return a1;
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} else if (isConstantNode(a1)) {
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return new ConstantNode(multiply(_a.value, a1.value));
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}
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}
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if (isConstantNode(a1)) {
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if (isZero(a1.value)) {
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return node0;
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} else if (equal(a1.value, 1)) {
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return _a;
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} else if (isOperatorNode(_a) && _a.isBinary() && _a.op === node.op && isCommutative(node, context)) {
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var a00 = _a.args[0];
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if (isConstantNode(a00)) {
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var a00a1 = new ConstantNode(multiply(a00.value, a1.value));
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return new OperatorNode(node.op, node.fn, [a00a1, _a.args[1]], node.implicit); // constants on left
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}
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}
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if (isCommutative(node, context)) {
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return new OperatorNode(node.op, node.fn, [a1, _a], node.implicit); // constants on left
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} else {
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return new OperatorNode(node.op, node.fn, [_a, a1], node.implicit);
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}
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}
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return new OperatorNode(node.op, node.fn, [_a, a1], node.implicit);
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} else if (node.op === '/') {
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if (isConstantNode(_a)) {
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if (isZero(_a.value)) {
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return node0;
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} else if (isConstantNode(a1) && (equal(a1.value, 1) || equal(a1.value, 2) || equal(a1.value, 4))) {
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return new ConstantNode(divide(_a.value, a1.value));
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}
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}
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return new OperatorNode(node.op, node.fn, [_a, a1]);
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} else if (node.op === '^') {
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if (isConstantNode(a1)) {
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if (isZero(a1.value)) {
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return node1;
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} else if (equal(a1.value, 1)) {
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return _a;
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} else {
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if (isConstantNode(_a)) {
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// fold constant
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return new ConstantNode(pow(_a.value, a1.value));
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} else if (isOperatorNode(_a) && _a.isBinary() && _a.op === '^') {
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var a01 = _a.args[1];
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if (isConstantNode(a01)) {
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return new OperatorNode(node.op, node.fn, [_a.args[0], new ConstantNode(multiply(a01.value, a1.value))]);
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}
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}
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}
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}
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}
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return new OperatorNode(node.op, node.fn, [_a, a1]);
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} else if (isFunctionNode(node)) {
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return new FunctionNode(simplifyCore(node.fn), node.args.map(n => simplifyCore(n, options)));
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} else if (isArrayNode(node)) {
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return new ArrayNode(node.items.map(n => simplifyCore(n, options)));
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} else if (isAccessorNode(node)) {
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return new AccessorNode(simplifyCore(node.object, options), simplifyCore(node.index, options));
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} else if (isIndexNode(node)) {
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return new IndexNode(node.dimensions.map(n => simplifyCore(n, options)));
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} else if (isObjectNode(node)) {
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var newProps = {};
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for (var prop in node.properties) {
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newProps[prop] = simplifyCore(node.properties[prop], options);
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}
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return new ObjectNode(newProps);
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} else {// cannot simplify
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}
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return node;
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}
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return simplifyCore;
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}); |