Press n or j to go to the next uncovered block, b, p or k for the previous block.
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13913x 13913x 13913x 13913x 13913x 179x 179x 135x 135x 135x 13908x 13908x 13908x 13913x 32300x 32300x 13908x 13913x 3257x 883x 883x 100x 100x 883x 883x 883x 3255x 2374x 2450x 2450x 2340x 2340x 2340x 2374x 2374x 3257x 13908x 13908x 13908x 13908x 13908x 13908x 2x 2x 2x 2x 2x 2x 2x 26922x 26922x 26922x 26922x 26922x 26922x 26922x 292176x 292176x 292176x 26922x 26922x 2x 2x 2x 2x 2x 2x 2x 2x 14256x 14256x 13657x 13657x 13657x 13657x 13657x 14256x 2921x 2921x 2879x 2879x 2879x 13615x 14256x 32x 32x 32x 13615x 14256x 13464x 13464x 13464x 14256x 14162x 7876x 7876x 12301x 7804x 7804x 7804x | import is_reference from 'is-reference'; import { walk } from 'zimmerframe'; import { is_element_node } from './nodes.js'; import * as b from '../utils/builders.js'; import { error } from '../errors.js'; import { extract_identifiers, extract_identifiers_from_destructuring } from '../utils/ast.js'; import { JsKeywords, Runes } from './constants.js'; export class Scope { /** @type {ScopeRoot} */ root; /** * The immediate parent scope * @type {Scope | null} */ parent; /** * Whether or not `var` declarations are contained by this scope * @type {boolean} */ #porous; /** * A map of every identifier declared by this scope, and all the * identifiers that reference it * @type {Map<string, import('#compiler').Binding>} */ declarations = new Map(); /** * A map of declarators to the bindings they declare * @type {Map<import('estree').VariableDeclarator | import('#compiler').LetDirective, import('#compiler').Binding[]>} */ declarators = new Map(); /** * A set of all the names referenced with this scope * — useful for generating unique names * @type {Map<string, { node: import('estree').Identifier; path: import('#compiler').SvelteNode[] }[]>} */ references = new Map(); /** * The scope depth allows us to determine if a state variable is referenced in its own scope, * which is usually an error. Block statements do not increase this value */ function_depth = 0; /** * * @param {ScopeRoot} root * @param {Scope | null} parent * @param {boolean} porous */ constructor(root, parent, porous) { this.root = root; this.parent = parent; this.#porous = porous; this.function_depth = parent ? parent.function_depth + (porous ? 0 : 1) : 0; } /** * @param {import('estree').Identifier} node * @param {import('#compiler').Binding['kind']} kind * @param {import('#compiler').DeclarationKind} declaration_kind * @param {null | import('estree').Expression | import('estree').FunctionDeclaration | import('estree').ClassDeclaration | import('estree').ImportDeclaration | import('../types/template.js').EachBlock} initial * @returns {import('#compiler').Binding} */ declare(node, kind, declaration_kind, initial = null) { if (node.name === '$') { error(node, 'invalid-dollar-binding'); } if ( node.name.startsWith('$') && declaration_kind !== 'synthetic' && declaration_kind !== 'param' && declaration_kind !== 'rest_param' && this.function_depth <= 1 ) { error(node, 'invalid-dollar-prefix'); } if (this.parent) { if (declaration_kind === 'var' && this.#porous) { return this.parent.declare(node, kind, declaration_kind); } if (declaration_kind === 'import') { return this.parent.declare(node, kind, declaration_kind, initial); } } if (this.declarations.has(node.name)) { // This also errors on var/function types, but that's arguably a good thing error(node, 'duplicate-declaration', node.name); } /** @type {import('#compiler').Binding} */ const binding = { node, references: [], legacy_dependencies: [], initial, mutated: false, scope: this, kind, declaration_kind, is_called: false, prop_alias: null, expression: null, mutation: null, reassigned: false, metadata: null }; this.declarations.set(node.name, binding); this.root.conflicts.add(node.name); return binding; } child(porous = false) { return new Scope(this.root, this, porous); } /** * @param {string} preferred_name * @returns {string} */ generate(preferred_name) { if (this.#porous) { return /** @type {Scope} */ (this.parent).generate(preferred_name); } preferred_name = preferred_name.replace(/[^a-zA-Z0-9_$]/g, '_').replace(/^[0-9]/, '_'); let name = preferred_name; let n = 1; while ( this.references.has(name) || this.declarations.has(name) || this.root.conflicts.has(name) || JsKeywords.includes(name) ) { name = `${preferred_name}_${n++}`; } this.references.set(name, []); this.root.conflicts.add(name); return name; } /** * @param {string} name * @returns {import('#compiler').Binding | null} */ get(name) { return this.declarations.get(name) ?? this.parent?.get(name) ?? null; } /** * @param {import('estree').VariableDeclarator | import('#compiler').LetDirective} node * @returns {import('#compiler').Binding[]} */ get_bindings(node) { const bindings = this.declarators.get(node); if (!bindings) { error(node, 'INTERNAL', 'No binding found for declarator'); } return bindings; } /** * @param {string} name * @returns {Scope | null} */ owner(name) { return this.declarations.has(name) ? this : this.parent && this.parent.owner(name); } /** * @param {import('estree').Identifier} node * @param {import('#compiler').SvelteNode[]} path */ reference(node, path) { path = [...path]; // ensure that mutations to path afterwards don't affect this reference let references = this.references.get(node.name); if (!references) this.references.set(node.name, (references = [])); references.push({ node, path }); const binding = this.declarations.get(node.name); if (binding) { binding.references.push({ node, path }); } else if (this.parent) { this.parent.reference(node, path); } else { // no binding was found, and this is the top level scope, // which means this is a global this.root.conflicts.add(node.name); } } } export class ScopeRoot { /** @type {Set<string>} */ conflicts = new Set(); /** * @param {string} preferred_name */ unique(preferred_name) { preferred_name = preferred_name.replace(/[^a-zA-Z0-9_$]/g, '_'); let final_name = preferred_name; let n = 1; while (this.conflicts.has(final_name)) { final_name = `${preferred_name}_${n++}`; } this.conflicts.add(final_name); const id = b.id(final_name); return id; } } /** * @param {import('#compiler').SvelteNode} ast * @param {ScopeRoot} root * @param {boolean} allow_reactive_declarations * @param {Scope | null} parent */ export function create_scopes(ast, root, allow_reactive_declarations, parent) { /** @typedef {{ scope: Scope }} State */ /** * A map of node->associated scope. A node appearing in this map does not necessarily mean that it created a scope * @type {Map<import('#compiler').SvelteNode, Scope>} */ const scopes = new Map(); const scope = new Scope(root, parent, false); scopes.set(ast, scope); /** @type {State} */ const state = { scope }; /** @type {[Scope, { node: import('estree').Identifier; path: import('#compiler').SvelteNode[] }][]} */ const references = []; /** @type {[Scope, import('estree').Pattern | import('estree').MemberExpression][]} */ const updates = []; /** * An array of reactive declarations, i.e. the `a` in `$: a = b * 2` * @type {import('estree').Identifier[]} */ const possible_implicit_declarations = []; /** * @param {Scope} scope * @param {import('estree').Pattern[]} params */ function add_params(scope, params) { for (const param of params) { for (const node of extract_identifiers(param)) { scope.declare(node, 'normal', param.type === 'RestElement' ? 'rest_param' : 'param'); } } } /** * @type {import('zimmerframe').Visitor<import('estree').Node, State, import('#compiler').SvelteNode>} */ const create_block_scope = (node, { state, next }) => { const scope = state.scope.child(true); scopes.set(node, scope); next({ scope }); }; /** * @type {import('zimmerframe').Visitor<import('#compiler').ElementLike, State, import('#compiler').SvelteNode>} */ const SvelteFragment = (node, { state, next }) => { const [scope] = analyze_let_directives(node, state.scope); scopes.set(node, scope); next({ scope }); }; /** * @param {import('#compiler').ElementLike} node * @param {Scope} parent */ function analyze_let_directives(node, parent) { const scope = parent.child(); let is_default_slot = true; for (const attribute of node.attributes) { if (attribute.type === 'LetDirective') { /** @type {import('#compiler').Binding[]} */ const bindings = []; scope.declarators.set(attribute, bindings); // attach the scope to the directive itself, as well as the // contents to which it applies scopes.set(attribute, scope); if (attribute.expression) { for (const id of extract_identifiers_from_destructuring(attribute.expression)) { const binding = scope.declare(id, 'derived', 'const'); bindings.push(binding); } } else { /** @type {import('estree').Identifier} */ const id = { name: attribute.name, type: 'Identifier', start: attribute.start, end: attribute.end }; const binding = scope.declare(id, 'derived', 'const'); bindings.push(binding); } } else if (attribute.type === 'Attribute' && attribute.name === 'slot') { is_default_slot = false; } } return /** @type {const} */ ([scope, is_default_slot]); } /** * @type {import('zimmerframe').Visitor<import('#compiler').AnimateDirective | import('#compiler').TransitionDirective | import('#compiler').UseDirective, State, import('#compiler').SvelteNode>} */ const SvelteDirective = (node, { state, path, visit }) => { state.scope.reference(b.id(node.name.split('.')[0]), path); if (node.expression) { visit(node.expression); } }; walk(ast, state, { // references Identifier(node, { path, state }) { const parent = path.at(-1); if (parent && is_reference(node, /** @type {import('estree').Node} */ (parent))) { references.push([state.scope, { node, path: path.slice() }]); } }, LabeledStatement(node, { path, next }) { if (path.length > 1 || !allow_reactive_declarations) return next(); if (node.label.name !== '$') return next(); // create a scope for the $: block const scope = state.scope.child(); scopes.set(node, scope); if ( node.body.type === 'ExpressionStatement' && node.body.expression.type === 'AssignmentExpression' ) { for (const id of extract_identifiers(node.body.expression.left)) { if (!id.name.startsWith('$')) { possible_implicit_declarations.push(id); } } } next({ scope }); }, SvelteFragment, SlotElement: SvelteFragment, SvelteElement: SvelteFragment, RegularElement: SvelteFragment, Component(node, { state, visit, path }) { state.scope.reference(b.id(node.name), path); for (const attribute of node.attributes) { visit(attribute); } // let:x is super weird: // - for the default slot, its scope only applies to children that are not slots themselves // - for named slots, its scope applies to the component itself, too const [scope, is_default_slot] = analyze_let_directives(node, state.scope); if (!is_default_slot) { scopes.set(node, scope); } for (const child of node.fragment.nodes) { if ( is_element_node(child) && child.attributes.some( (attribute) => attribute.type === 'Attribute' && attribute.name === 'slot' ) ) { // <div slot="..."> inherits the scope above the component unless the component is a named slot itself, because slots are hella weird scopes.set(child, is_default_slot ? state.scope : scope); visit(child, { scope: is_default_slot ? state.scope : scope }); } else { if (child.type === 'ExpressionTag') { // expression tag is a special case — we don't visit it directly, but via process_children, // so we need to set the scope on the expression rather than the tag itself scopes.set(child.expression, scope); } else { scopes.set(child, scope); } visit(child, { scope }); } } }, // updates AssignmentExpression(node, { state, next }) { updates.push([state.scope, node.left]); next(); }, UpdateExpression(node, { state, next }) { updates.push([ state.scope, /** @type {import('estree').Identifier | import('estree').MemberExpression} */ ( node.argument ) ]); next(); }, ImportDeclaration(node, { state }) { for (const specifier of node.specifiers) { state.scope.declare(specifier.local, 'normal', 'import', node); } }, FunctionExpression(node, { state, next }) { const scope = state.scope.child(); scopes.set(node, scope); if (node.id) scope.declare(node.id, 'normal', 'function'); add_params(scope, node.params); next({ scope }); }, FunctionDeclaration(node, { state, next }) { if (node.id) state.scope.declare(node.id, 'normal', 'function', node); const scope = state.scope.child(); scopes.set(node, scope); add_params(scope, node.params); next({ scope }); }, ArrowFunctionExpression(node, { state, next }) { const scope = state.scope.child(); scopes.set(node, scope); add_params(scope, node.params); next({ scope }); }, ForStatement: create_block_scope, ForInStatement: create_block_scope, ForOfStatement: create_block_scope, BlockStatement: create_block_scope, SwitchStatement: create_block_scope, ClassDeclaration(node, { state, next }) { if (node.id) state.scope.declare(node.id, 'normal', 'const', node); next(); }, VariableDeclaration(node, { state, path, next }) { const is_parent_const_tag = path.at(-1)?.type === 'ConstTag'; for (const declarator of node.declarations) { /** @type {import('#compiler').Binding[]} */ const bindings = []; state.scope.declarators.set(declarator, bindings); for (const id of extract_identifiers(declarator.id)) { const binding = state.scope.declare( id, is_parent_const_tag ? 'derived' : 'normal', node.kind, declarator.init ); bindings.push(binding); } } next(); }, CatchClause(node, { state, next }) { if (node.param) { const scope = state.scope.child(true); scopes.set(node, scope); for (const id of extract_identifiers(node.param)) { scope.declare(id, 'normal', 'let'); } next({ scope }); } else { next(); } }, EachBlock(node, { state, visit }) { // Array part is still from the scope above /** @type {Set<import('estree').Identifier>} */ const references_within = new Set(); const idx = references.length; visit(node.expression); for (let i = idx; i < references.length; i++) { const [scope, { node: id }] = references[i]; if (scope === state.scope) { references_within.add(id); } } scopes.set(node.expression, state.scope); // context and children are a new scope const scope = state.scope.child(); scopes.set(node, scope); // declarations for (const id of extract_identifiers(node.context)) { const binding = scope.declare(id, 'each', 'const'); let inside_rest = false; let is_rest_id = false; walk(node.context, null, { Identifier(node) { if (inside_rest && node === id) { is_rest_id = true; } }, RestElement(_, { next }) { const prev = inside_rest; inside_rest = true; next(); inside_rest = prev; } }); binding.metadata = { inside_rest: is_rest_id }; } if (node.context.type !== 'Identifier') { scope.declare(b.id('$$item'), 'derived', 'synthetic'); } // Visit to pick up references from default initializers visit(node.context, { scope }); if (node.index) { const is_keyed = node.key && (node.key.type !== 'Identifier' || !node.index || node.key.name !== node.index); scope.declare(b.id(node.index), is_keyed ? 'derived' : 'normal', 'const', node); } if (node.key) visit(node.key, { scope }); // children for (const child of node.body.nodes) { visit(child, { scope }); } if (node.fallback) visit(node.fallback, { scope }); // Check if inner scope shadows something from outer scope. // This is necessary because we need access to the array expression of the each block // in the inner scope if bindings are used, in order to invalidate the array. let needs_array_deduplication = false; for (const [name] of scope.declarations) { if (state.scope.get(name) !== null) { needs_array_deduplication = true; } } node.metadata = { contains_group_binding: false, array_name: needs_array_deduplication ? state.scope.root.unique('$$array') : null, index: scope.root.unique('$$index'), item: node.context.type === 'Identifier' ? node.context : b.id('$$item'), declarations: scope.declarations, references: [...references_within] .map((id) => /** @type {import('#compiler').Binding} */ (state.scope.get(id.name))) .filter(Boolean), is_controlled: false }; }, AwaitBlock(node, context) { context.visit(node.expression); if (node.pending) { context.visit(node.pending); } if (node.then) { context.visit(node.then); if (node.value) { const then_scope = /** @type {Scope} */ (scopes.get(node.then)); const value_scope = context.state.scope.child(); scopes.set(node.value, value_scope); context.visit(node.value, { scope: value_scope }); for (const id of extract_identifiers(node.value)) { then_scope.declare(id, 'normal', 'const'); value_scope.declare(id, 'normal', 'const'); } } } if (node.catch) { context.visit(node.catch); if (node.error) { const catch_scope = /** @type {Scope} */ (scopes.get(node.catch)); const error_scope = context.state.scope.child(); scopes.set(node.error, error_scope); context.visit(node.error, { scope: error_scope }); for (const id of extract_identifiers(node.error)) { catch_scope.declare(id, 'normal', 'const'); error_scope.declare(id, 'normal', 'const'); } } } }, SnippetBlock(node, context) { const state = context.state; // Special-case for root-level snippets: they become part of the instance scope const is_top_level = !context.path.at(-2); let scope = state.scope; if (is_top_level) { scope = /** @type {Scope} */ (parent); } scope.declare(node.expression, 'normal', 'function', node.expression); const child_scope = state.scope.child(); scopes.set(node, child_scope); for (const param of node.parameters) { for (const id of extract_identifiers(param)) { child_scope.declare(id, 'snippet', 'let'); } } context.next({ scope: child_scope }); }, Fragment: (node, context) => { const scope = context.state.scope.child(node.transparent); scopes.set(node, scope); context.next({ scope }); }, BindDirective(node, context) { updates.push([ context.state.scope, /** @type {import('estree').Identifier | import('estree').MemberExpression} */ ( node.expression ) ]); context.next(); }, TransitionDirective: SvelteDirective, AnimateDirective: SvelteDirective, UseDirective: SvelteDirective // TODO others }); for (const id of possible_implicit_declarations) { const binding = scope.get(id.name); if (binding) continue; // TODO can also be legacy_reactive if declared outside of reactive statement scope.declare(id, 'legacy_reactive', 'let'); } // we do this after the fact, so that we don't need to worry // about encountering references before their declarations for (const [scope, { node, path }] of references) { scope.reference(node, path); } for (const [scope, node] of updates) { if (node.type === 'MemberExpression') { let object = node.object; while (object.type === 'MemberExpression') { object = object.object; } const binding = scope.get(/** @type {import('estree').Identifier} */ (object).name); if (binding) binding.mutated = true; } else { extract_identifiers(node).forEach((identifier) => { const binding = scope.get(identifier.name); if (binding) { binding.mutated = true; binding.reassigned = true; } }); } } return { scope, scopes }; } /** * @template {{ scope: Scope }} State * @param {Map<import('#compiler').SvelteNode, Scope>} scopes * @returns {import('zimmerframe').Visitors<import('#compiler').SvelteNode, State>} */ export function set_scope(scopes) { return { /** * * @param {import('#compiler').SvelteNode} node * @param {import('zimmerframe').Context<import('#compiler').SvelteNode, State>} context */ _(node, { next, state }) { const scope = scopes.get(node); next(scope !== undefined && scope !== state.scope ? { ...state, scope } : state); } }; } /** * Returns the name of the rune if the given expression is a `CallExpression` using a rune. * @param {import('estree').Node | import('../types/template.js').EachBlock | null | undefined} node * @param {Scope} scope * @returns {Runes[number] | null} */ export function get_rune(node, scope) { if (!node) return null; if (node.type !== 'CallExpression') return null; let n = node.callee; let joined = ''; while (n.type === 'MemberExpression') { if (n.computed) return null; if (n.property.type !== 'Identifier') return null; joined = '.' + n.property.name + joined; n = n.object; } if (n.type === 'CallExpression' && n.callee.type === 'Identifier') { joined = '()' + joined; n = n.callee; } if (n.type !== 'Identifier') return null; joined = n.name + joined; if (joined === '$derived.call') error(node, 'invalid-derived-call'); if (!Runes.includes(/** @type {any} */ (joined))) return null; const binding = scope.get(n.name); if (binding !== null) return null; // rune name, but references a variable or store return /** @type {typeof Runes[number] | null} */ (joined); } |