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import * as b from '../utils/builders.js'; /** * Gets the left-most identifier of a member expression or identifier. * @param {import('estree').MemberExpression | import('estree').Identifier} expression * @returns {import('estree').Identifier | null} */ export function object(expression) { while (expression.type === 'MemberExpression') { expression = /** @type {import('estree').MemberExpression | import('estree').Identifier} */ ( expression.object ); } if (expression.type !== 'Identifier') { return null; } return expression; } /** * Returns true if the attribute contains a single static text node. * @param {import('#compiler').Attribute} attribute * @returns {attribute is import('#compiler').Attribute & { value: [import('#compiler').Text] }} */ export function is_text_attribute(attribute) { return ( attribute.value !== true && attribute.value.length === 1 && attribute.value[0].type === 'Text' ); } /** * Returns true if the attribute contains a single expression node. * @param {import('#compiler').Attribute} attribute * @returns {attribute is import('#compiler').Attribute & { value: [import('#compiler').ExpressionTag] }} */ export function is_expression_attribute(attribute) { return ( attribute.value !== true && attribute.value.length === 1 && attribute.value[0].type === 'ExpressionTag' ); } /** * Returns true if the attribute starts with `on` and contains a single expression node. * @param {import('#compiler').Attribute} attribute * @returns {attribute is import('#compiler').Attribute & { value: [import('#compiler').ExpressionTag] }} */ export function is_event_attribute(attribute) { return is_expression_attribute(attribute) && attribute.name.startsWith('on'); } /** * Extracts all identifiers from a pattern. * @param {import('estree').Pattern} param * @param {import('estree').Identifier[]} [nodes] * @returns {import('estree').Identifier[]} */ export function extract_identifiers(param, nodes = []) { switch (param.type) { case 'Identifier': nodes.push(param); break; case 'ObjectPattern': for (const prop of param.properties) { if (prop.type === 'RestElement') { extract_identifiers(prop.argument, nodes); } else { extract_identifiers(prop.value, nodes); } } break; case 'ArrayPattern': for (const element of param.elements) { if (element) extract_identifiers(element, nodes); } break; case 'RestElement': extract_identifiers(param.argument, nodes); break; case 'AssignmentPattern': extract_identifiers(param.left, nodes); break; } return nodes; } /** * Extracts all identifiers and a stringified keypath from an expression. * @param {import('estree').Expression} expr * @returns {[keypath: string, ids: import('estree').Identifier[]]} */ export function extract_all_identifiers_from_expression(expr) { /** @type {import('estree').Identifier[]} */ let nodes = []; /** @type {string[]} */ let keypath = []; walk( expr, {}, { Identifier(node, { path }) { const parent = path.at(-1); if (parent?.type !== 'MemberExpression' || parent.property !== node || parent.computed) { nodes.push(node); } if (parent?.type === 'MemberExpression' && parent.computed && parent.property === node) { keypath.push(`[${node.name}]`); } else { keypath.push(node.name); } }, Literal(node, { path }) { const value = typeof node.value === 'string' ? `"${node.value}"` : String(node.value); const parent = path.at(-1); if (parent?.type === 'MemberExpression' && parent.computed && parent.property === node) { keypath.push(`[${value}]`); } else { keypath.push(value); } }, ThisExpression(_, { next }) { keypath.push('this'); next(); } } ); return [keypath.join('.'), nodes]; } /** * Extracts all leaf identifiers from a destructuring expression. * @param {import('estree').Identifier | import('estree').ObjectExpression | import('estree').ArrayExpression} node * @param {import('estree').Identifier[]} [nodes] * @returns */ export function extract_identifiers_from_destructuring(node, nodes = []) { // TODO This isn't complete, but it should be enough for our purposes switch (node.type) { case 'Identifier': nodes.push(node); break; case 'ObjectExpression': for (const prop of node.properties) { if (prop.type === 'Property') { extract_identifiers_from_destructuring(/** @type {any} */ (prop.value), nodes); } else { extract_identifiers_from_destructuring(/** @type {any} */ (prop.argument), nodes); } } break; case 'ArrayExpression': for (const element of node.elements) { if (element) extract_identifiers_from_destructuring(/** @type {any} */ (element), nodes); } break; } return nodes; } /** * Represents the path of a destructured assignment from either a declaration * or assignment expression. For example, given `const { foo: { bar: baz } } = quux`, * the path of `baz` is `foo.bar` * @typedef {Object} DestructuredAssignment * @property {import('estree').Identifier | import('estree').MemberExpression} node The node the destructuring path end in. Can be a member expression only for assignment expressions * @property {boolean} is_rest `true` if this is a `...rest` destructuring * @property {(expression: import('estree').Expression) => import('estree').Identifier | import('estree').MemberExpression | import('estree').CallExpression} expression Returns an expression which walks the path starting at the given expression. * This will be a call expression if a rest element or default is involved — * e.g. `const { foo: { bar: baz = 42 }, ...rest } = quux` — * since we can't represent `baz` or `rest` purely as a path * @property {(expression: import('estree').Expression) => import('estree').Identifier | import('estree').MemberExpression | import('estree').CallExpression} update_expression Like `expression` but without default values. */ /** * Extracts all destructured assignments from a pattern. * @param {import('estree').Node} param * @returns {DestructuredAssignment[]} */ export function extract_paths(param) { return _extract_paths( [], param, (node) => /** @type {import('estree').Identifier | import('estree').MemberExpression} */ (node), (node) => /** @type {import('estree').Identifier | import('estree').MemberExpression} */ (node) ); } /** * @param {DestructuredAssignment[]} assignments * @param {import('estree').Node} param * @param {DestructuredAssignment['expression']} expression * @param {DestructuredAssignment['update_expression']} update_expression * @returns {DestructuredAssignment[]} */ function _extract_paths(assignments = [], param, expression, update_expression) { switch (param.type) { case 'Identifier': case 'MemberExpression': assignments.push({ node: param, is_rest: false, expression, update_expression }); break; case 'ObjectPattern': for (const prop of param.properties) { if (prop.type === 'RestElement') { /** @type {DestructuredAssignment['expression']} */ const rest_expression = (object) => { /** @type {import('estree').Expression[]} */ const props = []; for (const p of param.properties) { if (p.type === 'Property' && p.key.type !== 'PrivateIdentifier') { if (p.key.type === 'Identifier' && !p.computed) { props.push(b.literal(p.key.name)); } else { props.push(p.key); } } } return b.call('$.exclude_from_object', expression(object), b.array(props)); }; if (prop.argument.type === 'Identifier') { assignments.push({ node: prop.argument, is_rest: true, expression: rest_expression, update_expression: rest_expression }); } else { _extract_paths(assignments, prop.argument, rest_expression, rest_expression); } } else { /** @type {DestructuredAssignment['expression']} */ const object_expression = (object) => b.member(expression(object), prop.key, prop.computed || prop.key.type !== 'Identifier'); _extract_paths(assignments, prop.value, object_expression, object_expression); } } break; case 'ArrayPattern': for (let i = 0; i < param.elements.length; i += 1) { const element = param.elements[i]; if (element) { if (element.type === 'RestElement') { /** @type {DestructuredAssignment['expression']} */ const rest_expression = (object) => b.call(b.member(expression(object), b.id('slice')), b.literal(i)); if (element.argument.type === 'Identifier') { assignments.push({ node: element.argument, is_rest: true, expression: rest_expression, update_expression: rest_expression }); } else { _extract_paths(assignments, element.argument, rest_expression, rest_expression); } } else { /** @type {DestructuredAssignment['expression']} */ const array_expression = (object) => b.member(expression(object), b.literal(i), true); _extract_paths(assignments, element, array_expression, array_expression); } } } break; case 'AssignmentPattern': { /** @type {DestructuredAssignment['expression']} */ const fallback_expression = (object) => b.call('$.value_or_fallback', expression(object), param.right); if (param.left.type === 'Identifier') { assignments.push({ node: param.left, is_rest: false, expression: fallback_expression, update_expression }); } else { _extract_paths(assignments, param.left, fallback_expression, update_expression); } break; } } return assignments; } /** * Like `path.at(x)`, but skips over `TSNonNullExpression` and `TSAsExpression` nodes and eases assertions a bit * by removing the `| undefined` from the resulting type. * * @template {import('#compiler').SvelteNode} T * @param {T[]} path * @param {number} at */ export function get_parent(path, at) { let node = path.at(at); // @ts-expect-error if (node.type === 'TSNonNullExpression' || node.type === 'TSAsExpression') { return /** @type {T} */ (path.at(at < 0 ? at - 1 : at + 1)); } return /** @type {T} */ (node); } /** * Returns `true` if the expression is an identifier, a literal, a function expression, * or a logical expression that only contains simple expressions. Used to determine whether * something needs to be treated as though accessing it could have side-effects (i.e. * reading signals prematurely) * @param {import('estree').Expression} node * @returns {boolean} */ export function is_simple_expression(node) { if ( node.type === 'Literal' || node.type === 'Identifier' || node.type === 'ArrowFunctionExpression' || node.type === 'FunctionExpression' ) { return true; } if (node.type === 'ConditionalExpression') { return ( is_simple_expression(node.test) && is_simple_expression(node.consequent) && is_simple_expression(node.alternate) ); } if (node.type === 'BinaryExpression' || node.type === 'LogicalExpression') { return is_simple_expression(node.left) && is_simple_expression(node.right); } return false; } /** * @template {import('estree').SimpleCallExpression | import('estree').MemberExpression} T * @param {import('estree').ChainExpression & { expression : T } | T} node * @returns {T} */ export function unwrap_optional(node) { return node.type === 'ChainExpression' ? node.expression : node; } |