/** * Generates TypeScript bindings from a schema describing types and their serialization. * * Internally, the generated types deserialize their data on demand. This benefits performance: If we eagerly * deserialized a serialized tree to a tree of objects in memory, creating the tree would produce many heap-allocated * objects, and visiting the tree would require dereferencing chains of heap pointers. Deserializing while traversing * allows the optimizer to stack-allocate the temporary objects, saving time and reducing GC pressure. */ import ts from 'typescript' import * as Schema from './schema.js' import { Type, abstractTypeDeserializer, abstractTypeVariants, fieldDeserializer, fieldVisitor, seekViewDyn, support, supportImports, } from './serialization.js' import { assignmentStatement, forwardToSuper, mapIdent, modifiers, namespacedName, toCamel, toPascal, } from './util.js' const tsf: ts.NodeFactory = ts.factory const addressIdent = tsf.createIdentifier('address') const viewIdent = tsf.createIdentifier('view') // === Public API === export function implement(schema: Schema.Schema): string { const file = ts.createSourceFile('source.ts', '', ts.ScriptTarget.ESNext, false, ts.ScriptKind.TS) const printer = ts.createPrinter({ newLine: ts.NewLineKind.LineFeed, omitTrailingSemicolon: true, }) let output = '// *** THIS FILE GENERATED BY `parser-codegen` ***\n' function emit(data: ts.Node) { output += printer.printNode(ts.EmitHint.Unspecified, data, file) output += '\n' } emit( tsf.createImportDeclaration( [], tsf.createImportClause( false, undefined, tsf.createNamedImports( Array.from(Object.entries(supportImports), ([name, isTypeOnly]) => tsf.createImportSpecifier(isTypeOnly, undefined, tsf.createIdentifier(name)), ), ), ), tsf.createStringLiteral('../parserSupport', true), undefined, ), ) for (const id in schema.types) { const ty = schema.types[id] if (ty?.parent == null) { const discriminants = schema.serialization[id]?.discriminants if (discriminants == null) { emit(makeConcreteType(id, schema)) } else { const ty = makeAbstractType(id, discriminants, schema) emit(ty.module) emit(ty.export) } } else { // Ignore child types; they are generated when `makeAbstractType` processes the parent. } } return output } // === Implementation === function makeType(ref: Schema.TypeRef, schema: Schema.Schema): Type { const c = ref.class switch (c) { case 'type': { const ty = schema.types[ref.id] if (!ty) throw new Error(`Invalid type ref: ${ref.id}`) const parent = ty.parent != null ? schema.types[ty.parent] : undefined const typeName = namespacedName(ty.name, parent?.name) const layout = schema.serialization[ref.id] if (!layout) throw new Error(`Invalid serialization ref: ${ref.id}`) if (layout.discriminants != null) { return Type.Abstract(typeName) } else { return Type.Concrete(typeName, layout.size) } } case 'primitive': { const p = ref.type switch (p) { case 'bool': return Type.Boolean case 'u32': return Type.UInt32 case 'i32': return Type.Int32 case 'u64': return Type.UInt64 case 'i64': return Type.Int64 case 'char': return Type.Char case 'string': return Type.String default: { const _ = p satisfies never throw new Error(`unreachable: PrimitiveType.type='${p}'`) } } } case 'sequence': return Type.Sequence(makeType(ref.type, schema)) case 'option': return Type.Option(makeType(ref.type, schema)) case 'result': return Type.Result(makeType(ref.type0, schema), makeType(ref.type1, schema)) default: { const _ = c satisfies never throw new Error(`unreachable: TypeRef.class='${c}' in ${JSON.stringify(ref)}`) } } } type Field = { name: string type: Type offset: number } function makeField( name: string, typeRef: Schema.TypeRef, offset: number, schema: Schema.Schema, ): Field { return { name: mapIdent(toCamel(name)), type: makeType(typeRef, schema), offset: offset, } } function makeGetter(field: Field): ts.GetAccessorDeclaration { return fieldDeserializer(tsf.createIdentifier(field.name), field.type, field.offset) } function makeConcreteType(id: string, schema: Schema.Schema): ts.ClassDeclaration { const ident = tsf.createIdentifier(toPascal(schema.types[id]!.name)) return makeClass( [modifiers.export], ident, [ forwardToSuper(viewIdent, support.DataView), makeReadMethod( ident, addressIdent, viewIdent, tsf.createNewExpression(ident, [], [seekViewDyn(viewIdent, addressIdent)]), ), ], id, schema, ) } function makeReadMethod( typeIdent: ts.Identifier, addressIdent: ts.Identifier, viewIdent: ts.Identifier, returnValue: ts.Expression, ): ts.MethodDeclaration { const offsetParam = tsf.createParameterDeclaration( [], undefined, addressIdent, undefined, tsf.createTypeReferenceNode('number'), undefined, ) const cursorParam = tsf.createParameterDeclaration( [], undefined, viewIdent, undefined, support.DataView, undefined, ) return tsf.createMethodDeclaration( [modifiers.static], undefined, 'read', undefined, [], [cursorParam, offsetParam], tsf.createTypeReferenceNode(typeIdent), tsf.createBlock([tsf.createReturnStatement(returnValue)]), ) } function makeReadFunction( typeIdent: ts.Identifier, addressIdent: ts.Identifier, viewIdent: ts.Identifier, returnValue: ts.Expression, ): ts.FunctionDeclaration { const offsetParam = tsf.createParameterDeclaration( [], undefined, addressIdent, undefined, tsf.createTypeReferenceNode('number'), undefined, ) const cursorParam = tsf.createParameterDeclaration( [], undefined, viewIdent, undefined, support.DataView, undefined, ) return tsf.createFunctionDeclaration( [modifiers.export], undefined, 'read', [], [cursorParam, offsetParam], tsf.createTypeReferenceNode(typeIdent), tsf.createBlock([tsf.createReturnStatement(returnValue)]), ) } function makeVisitFunction(fields: Field[]): ts.MethodDeclaration { const ident = tsf.createIdentifier('visitChildren') const visitorParam = tsf.createIdentifier('visitor') const visitorParamDecl = tsf.createParameterDeclaration( undefined, undefined, visitorParam, undefined, support.ObjectVisitor, ) const visitSuperChildren = tsf.createCallExpression( tsf.createPropertyAccessExpression(tsf.createSuper(), ident), undefined, [visitorParam], ) const fieldVisitations: ts.Expression[] = [] for (const field of fields) { if (field.type.visitor === 'visitValue') { fieldVisitations.push( tsf.createCallExpression(visitorParam, undefined, [ tsf.createPropertyAccessExpression(tsf.createThis(), field.name), ]), ) } else if (field.type.visitor != null) { fieldVisitations.push( tsf.createCallExpression( tsf.createPropertyAccessExpression(tsf.createThis(), toCamel('visit_' + field.name)), undefined, [visitorParam], ), ) } } const toBool = (value: ts.Expression) => tsf.createPrefixUnaryExpression( ts.SyntaxKind.ExclamationToken, tsf.createPrefixUnaryExpression(ts.SyntaxKind.ExclamationToken, value), ) const expression = fieldVisitations.reduce( (lhs, rhs) => tsf.createBinaryExpression(lhs, ts.SyntaxKind.BarBarToken, toBool(rhs)), visitSuperChildren, ) return tsf.createMethodDeclaration( undefined, undefined, ident, undefined, undefined, [visitorParamDecl], tsf.createTypeReferenceNode('boolean'), tsf.createBlock([tsf.createReturnStatement(expression)]), ) } function makeGetters(id: string, schema: Schema.Schema): ts.ClassElement[] { const serialization = schema.serialization[id] const type = schema.types[id] if (serialization == null || type == null) throw new Error(`Invalid type id: ${id}`) const fields = serialization.fields.map(([name, offset]: [string, number]) => { const field = type.fields[name] if (field == null) throw new Error(`Invalid field name '${name}' for type '${type.name}'`) return makeField(name, field, offset, schema) }) return [ ...fields.map(makeGetter), ...fields.map(makeElementVisitor).filter((v): v is ts.ClassElement => v != null), makeVisitFunction(fields), ] } function makeElementVisitor(field: Field): ts.ClassElement | undefined { if (field.type.visitor == null) return undefined const ident = tsf.createIdentifier(toCamel('visit_' + field.name)) return fieldVisitor(ident, field.type, field.offset) } function makeClass( modifiers: ts.Modifier[], name: ts.Identifier, members: ts.ClassElement[], id: string, schema: Schema.Schema, ): ts.ClassDeclaration { return tsf.createClassDeclaration( modifiers, name, undefined, [ tsf.createHeritageClause(ts.SyntaxKind.ExtendsKeyword, [ tsf.createExpressionWithTypeArguments(support.LazyObject, []), ]), ], [...members, ...makeGetters(id, schema)], ) } type ChildType = { definition: ts.ClassDeclaration name: ts.Identifier enumMember: ts.EnumMember } function makeChildType( base: ts.Identifier, id: string, discriminant: string, schema: Schema.Schema, ): ChildType { const ty = schema.types[id] if (ty == null) throw new Error(`Invalid type id: ${id}`) const name = toPascal(ty.name) const ident = tsf.createIdentifier(name) const typeIdent = tsf.createIdentifier('Type') const addressIdent = tsf.createIdentifier('address') const viewIdent = tsf.createIdentifier('view') const discriminantInt = tsf.createNumericLiteral(parseInt(discriminant, 10)) return { definition: tsf.createClassDeclaration( [modifiers.export], name, undefined, [ tsf.createHeritageClause(ts.SyntaxKind.ExtendsKeyword, [ tsf.createExpressionWithTypeArguments(base, []), ]), ], [ tsf.createPropertyDeclaration( [modifiers.readonly], 'type', undefined, tsf.createTypeReferenceNode(tsf.createQualifiedName(typeIdent, name)), undefined, ), tsf.createConstructorDeclaration( [], [ tsf.createParameterDeclaration( [], undefined, viewIdent, undefined, support.DataView, undefined, ), ], tsf.createBlock([ tsf.createExpressionStatement( tsf.createCallExpression(tsf.createSuper(), [], [viewIdent]), ), assignmentStatement( tsf.createPropertyAccessExpression(tsf.createThis(), 'type'), tsf.createPropertyAccessExpression(typeIdent, name), ), ]), ), makeReadMethod( ident, addressIdent, viewIdent, tsf.createNewExpression(ident, [], [seekViewDyn(viewIdent, addressIdent)]), ), ...makeGetters(id, schema), ], ), name: tsf.createIdentifier(name), enumMember: tsf.createEnumMember(name, discriminantInt), } } type AbstractType = { module: ts.ModuleDeclaration export: ts.TypeAliasDeclaration } function makeAbstractType( id: string, discriminants: Schema.DiscriminantMap, schema: Schema.Schema, ): AbstractType { const ty = schema.types[id]! const name = toPascal(ty.name) const ident = tsf.createIdentifier(name) const type = tsf.createTypeReferenceNode(ident) const baseIdent = tsf.createIdentifier('AbstractBase') const childTypes = Array.from(Object.entries(discriminants), ([discrim, id]: [string, string]) => makeChildType(baseIdent, id, discrim, schema), ) const moduleDecl = tsf.createModuleDeclaration( [modifiers.export], ident, tsf.createModuleBlock([ makeClass( [modifiers.export, modifiers.abstract], baseIdent, [forwardToSuper(viewIdent, support.DataView, [modifiers.protected])], id, schema, ), tsf.createEnumDeclaration( [modifiers.export, modifiers.const], 'Type', childTypes.map((child) => child.enumMember), ), makeExportConstVariable( 'typeNames', tsf.createArrayLiteralExpression( childTypes.map((child) => tsf.createStringLiteralFromNode(child.name)), ), ), ...childTypes.map((child) => child.definition), tsf.createTypeAliasDeclaration( [modifiers.export], ident, undefined, tsf.createUnionTypeNode(childTypes.map((child) => tsf.createTypeReferenceNode(child.name))), ), abstractTypeVariants(childTypes.map((child) => child.name)), makeReadFunction( ident, addressIdent, viewIdent, abstractTypeDeserializer(ident, viewIdent, addressIdent), ), makeIsInstance(type, baseIdent), ]), ) const abstractTypeExport = tsf.createTypeAliasDeclaration( [modifiers.export], ident, undefined, tsf.createTypeReferenceNode(tsf.createQualifiedName(ident, ident)), ) return { module: moduleDecl, export: abstractTypeExport } } function makeExportConstVariable( varName: string, initializer: ts.Expression, ): ts.VariableStatement { return tsf.createVariableStatement( [modifiers.export], tsf.createVariableDeclarationList( [ tsf.createVariableDeclaration( varName, undefined, undefined, tsf.createAsExpression(initializer, tsf.createTypeReferenceNode('const')), ), ], ts.NodeFlags.Const, ), ) } function makeIsInstance(type: ts.TypeNode, baseIdent: ts.Identifier): ts.FunctionDeclaration { const param = tsf.createIdentifier('obj') const paramDecl = tsf.createParameterDeclaration( undefined, undefined, param, undefined, tsf.createTypeReferenceNode('unknown'), ) const returnValue = tsf.createBinaryExpression(param, ts.SyntaxKind.InstanceOfKeyword, baseIdent) return tsf.createFunctionDeclaration( [modifiers.export], undefined, 'isInstance', undefined, [paramDecl], tsf.createTypePredicateNode(undefined, param, type), tsf.createBlock([tsf.createReturnStatement(returnValue)]), ) }