import { declare } from "@babel/helper-plugin-utils"; import { types as t } from "@babel/core"; export default declare((api, options) => { api.assertVersion(7); const { loose } = options; function getSpreadLiteral(spread, scope) { if (loose && !t.isIdentifier(spread.argument, { name: "arguments" })) { return spread.argument; } else { return scope.toArray(spread.argument, true); } } function hasSpread(nodes) { for (let i = 0; i < nodes.length; i++) { if (t.isSpreadElement(nodes[i])) { return true; } } return false; } function push(_props, nodes) { if (!_props.length) return _props; nodes.push(t.arrayExpression(_props)); return []; } function build(props: Array, scope) { const nodes = []; let _props = []; for (const prop of props) { if (t.isSpreadElement(prop)) { _props = push(_props, nodes); nodes.push(getSpreadLiteral(prop, scope)); } else { _props.push(prop); } } push(_props, nodes); return nodes; } return { name: "transform-spread", visitor: { ArrayExpression(path) { const { node, scope } = path; const elements = node.elements; if (!hasSpread(elements)) return; const nodes = build(elements, scope); let first = nodes[0]; // If there is only one element in the ArrayExpression and // the element was transformed (Array.prototype.slice.call or toConsumableArray) // we know that the transformed code already takes care of cloning the array. // So we can simply return that element. if (nodes.length === 1 && first !== elements[0].argument) { path.replaceWith(first); return; } // If the first element is a ArrayExpression we can directly call // concat on it. // `[..].concat(..)` // If not then we have to use `[].concat(arr)` and not `arr.concat` // because `arr` could be extended/modified (e.g. Immutable) and we do not know exactly // what concat would produce. if (!t.isArrayExpression(first)) { first = t.arrayExpression([]); } else { nodes.shift(); } path.replaceWith( t.callExpression( t.memberExpression(first, t.identifier("concat")), nodes, ), ); }, CallExpression(path) { const { node, scope } = path; const args = node.arguments; if (!hasSpread(args)) return; const calleePath = path.get("callee"); if (calleePath.isSuper()) return; let contextLiteral = scope.buildUndefinedNode(); node.arguments = []; let nodes; if (args.length === 1 && args[0].argument.name === "arguments") { nodes = [args[0].argument]; } else { nodes = build(args, scope); } const first = nodes.shift(); if (nodes.length) { node.arguments.push( t.callExpression( t.memberExpression(first, t.identifier("concat")), nodes, ), ); } else { node.arguments.push(first); } const callee = node.callee; if (calleePath.isMemberExpression()) { const temp = scope.maybeGenerateMemoised(callee.object); if (temp) { callee.object = t.assignmentExpression("=", temp, callee.object); contextLiteral = temp; } else { contextLiteral = t.cloneNode(callee.object); } t.appendToMemberExpression(callee, t.identifier("apply")); } else { node.callee = t.memberExpression(node.callee, t.identifier("apply")); } if (t.isSuper(contextLiteral)) { contextLiteral = t.thisExpression(); } node.arguments.unshift(t.cloneNode(contextLiteral)); }, NewExpression(path) { const { node, scope } = path; let args = node.arguments; if (!hasSpread(args)) return; const nodes = build(args, scope); const first = nodes.shift(); if (nodes.length) { args = t.callExpression( t.memberExpression(first, t.identifier("concat")), nodes, ); } else { args = first; } path.replaceWith( t.callExpression(path.hub.addHelper("construct"), [ node.callee, args, ]), ); }, }, }; });