2017-11-20 13:21:17 -05:00
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/**
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* @license
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* Copyright Google Inc. All Rights Reserved.
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*
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* Use of this source code is governed by an MIT-style license that can be
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* found in the LICENSE file at https://angular.io/license
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*/
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import * as o from './output/output_ast';
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import {OutputContext, error} from './util';
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2018-01-11 18:37:56 -05:00
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const CONSTANT_PREFIX = '_c';
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2018-02-05 20:31:12 -05:00
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export const enum DefinitionKind {Injector, Directive, Component, Pipe}
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/**
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* Context to use when producing a key.
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*
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* This ensures we see the constant not the reference variable when producing
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* a key.
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*/
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const KEY_CONTEXT = {};
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/**
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* A node that is a place-holder that allows the node to be replaced when the actual
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* node is known.
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*
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* This allows the constant pool to change an expression from a direct reference to
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* a constant to a shared constant. It returns a fix-up node that is later allowed to
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* change the referenced expression.
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*/
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class FixupExpression extends o.Expression {
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private original: o.Expression;
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shared: boolean;
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constructor(public resolved: o.Expression) {
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super(resolved.type);
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this.original = resolved;
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}
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visitExpression(visitor: o.ExpressionVisitor, context: any): any {
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if (context === KEY_CONTEXT) {
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// When producing a key we want to traverse the constant not the
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// variable used to refer to it.
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return this.original.visitExpression(visitor, context);
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} else {
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return this.resolved.visitExpression(visitor, context);
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}
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}
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isEquivalent(e: o.Expression): boolean {
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return e instanceof FixupExpression && this.resolved.isEquivalent(e.resolved);
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}
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isConstant() { return true; }
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fixup(expression: o.Expression) {
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this.resolved = expression;
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this.shared = true;
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}
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}
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/**
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* A constant pool allows a code emitter to share constant in an output context.
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*
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* The constant pool also supports sharing access to ivy definitions references.
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*/
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export class ConstantPool {
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statements: o.Statement[] = [];
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private literals = new Map<string, FixupExpression>();
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private literalFactories = new Map<string, o.Expression>();
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private injectorDefinitions = new Map<any, FixupExpression>();
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private directiveDefinitions = new Map<any, FixupExpression>();
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private componentDefinitions = new Map<any, FixupExpression>();
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private pipeDefinitions = new Map<any, FixupExpression>();
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private nextNameIndex = 0;
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getConstLiteral(literal: o.Expression, forceShared?: boolean): o.Expression {
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if (literal instanceof o.LiteralExpr || literal instanceof FixupExpression) {
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// Do no put simple literals into the constant pool or try to produce a constant for a
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// reference to a constant.
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return literal;
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}
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const key = this.keyOf(literal);
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let fixup = this.literals.get(key);
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let newValue = false;
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if (!fixup) {
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fixup = new FixupExpression(literal);
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this.literals.set(key, fixup);
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newValue = true;
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}
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if ((!newValue && !fixup.shared) || (newValue && forceShared)) {
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// Replace the expression with a variable
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const name = this.freshName();
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this.statements.push(
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o.variable(name).set(literal).toDeclStmt(o.INFERRED_TYPE, [o.StmtModifier.Final]));
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fixup.fixup(o.variable(name));
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}
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return fixup;
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}
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getDefinition(type: any, kind: DefinitionKind, ctx: OutputContext, forceShared: boolean = false):
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o.Expression {
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const definitions = this.definitionsOf(kind);
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let fixup = definitions.get(type);
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let newValue = false;
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if (!fixup) {
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const property = this.propertyNameOf(kind);
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fixup = new FixupExpression(ctx.importExpr(type).prop(property));
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definitions.set(type, fixup);
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newValue = true;
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}
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if ((!newValue && !fixup.shared) || (newValue && forceShared)) {
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const name = this.freshName();
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this.statements.push(
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o.variable(name).set(fixup.resolved).toDeclStmt(o.INFERRED_TYPE, [o.StmtModifier.Final]));
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fixup.fixup(o.variable(name));
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}
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return fixup;
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}
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getLiteralFactory(literal: o.LiteralArrayExpr|o.LiteralMapExpr):
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{literalFactory: o.Expression, literalFactoryArguments: o.Expression[]} {
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// Create a pure function that builds an array of a mix of constant and variable expressions
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if (literal instanceof o.LiteralArrayExpr) {
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const argumentsForKey = literal.entries.map(e => e.isConstant() ? e : o.literal(null));
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const key = this.keyOf(o.literalArr(argumentsForKey));
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return this._getLiteralFactory(key, literal.entries, entries => o.literalArr(entries));
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} else {
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const expressionForKey = o.literalMap(
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literal.entries.map(e => ({
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key: e.key,
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value: e.value.isConstant() ? e.value : o.literal(null),
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quoted: e.quoted
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})));
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const key = this.keyOf(expressionForKey);
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return this._getLiteralFactory(
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key, literal.entries.map(e => e.value),
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entries => o.literalMap(entries.map((value, index) => ({
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key: literal.entries[index].key,
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value,
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quoted: literal.entries[index].quoted
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}))));
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}
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}
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private _getLiteralFactory(
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key: string, values: o.Expression[], resultMap: (parameters: o.Expression[]) => o.Expression):
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{literalFactory: o.Expression, literalFactoryArguments: o.Expression[]} {
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let literalFactory = this.literalFactories.get(key);
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const literalFactoryArguments = values.filter((e => !e.isConstant()));
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if (!literalFactory) {
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const resultExpressions = values.map(
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(e, index) => e.isConstant() ? this.getConstLiteral(e, true) : o.variable(`a${index}`));
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const parameters =
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resultExpressions.filter(isVariable).map(e => new o.FnParam(e.name !, o.DYNAMIC_TYPE));
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const pureFunctionDeclaration =
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o.fn(parameters, [new o.ReturnStatement(resultMap(resultExpressions))], o.INFERRED_TYPE);
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const name = this.freshName();
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this.statements.push(
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o.variable(name).set(pureFunctionDeclaration).toDeclStmt(o.INFERRED_TYPE, [
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o.StmtModifier.Final
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]));
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literalFactory = o.variable(name);
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this.literalFactories.set(key, literalFactory);
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}
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return {literalFactory, literalFactoryArguments};
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}
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/**
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* Produce a unique name.
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*
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* The name might be unique among different prefixes if any of the prefixes end in
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* a digit so the prefix should be a constant string (not based on user input) and
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* must not end in a digit.
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*/
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uniqueName(prefix: string): string { return `${prefix}${this.nextNameIndex++}`; }
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private definitionsOf(kind: DefinitionKind): Map<any, FixupExpression> {
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switch (kind) {
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case DefinitionKind.Component:
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return this.componentDefinitions;
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case DefinitionKind.Directive:
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return this.directiveDefinitions;
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case DefinitionKind.Injector:
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return this.injectorDefinitions;
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case DefinitionKind.Pipe:
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return this.pipeDefinitions;
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}
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error(`Unknown definition kind ${kind}`);
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return this.componentDefinitions;
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}
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public propertyNameOf(kind: DefinitionKind): string {
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switch (kind) {
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case DefinitionKind.Component:
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return 'ngComponentDef';
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case DefinitionKind.Directive:
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return 'ngDirectiveDef';
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case DefinitionKind.Injector:
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return 'ngInjectorDef';
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case DefinitionKind.Pipe:
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return 'ngPipeDef';
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}
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error(`Unknown definition kind ${kind}`);
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return '<unknown>';
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}
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private freshName(): string { return this.uniqueName(CONSTANT_PREFIX); }
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private keyOf(expression: o.Expression) {
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return expression.visitExpression(new KeyVisitor(), KEY_CONTEXT);
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}
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}
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class KeyVisitor implements o.ExpressionVisitor {
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visitLiteralExpr(ast: o.LiteralExpr): string {
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return `${typeof ast.value === 'string' ? '"' + ast.value + '"' : ast.value}`;
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}
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visitLiteralArrayExpr(ast: o.LiteralArrayExpr, context: object): string {
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return `[${ast.entries.map(entry => entry.visitExpression(this, context)).join(',')}]`;
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}
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visitLiteralMapExpr(ast: o.LiteralMapExpr, context: object): string {
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const mapEntry = (entry: o.LiteralMapEntry) =>
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`${entry.key}:${entry.value.visitExpression(this, context)}`;
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return `{${ast.entries.map(mapEntry).join(',')}`;
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}
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visitExternalExpr(ast: o.ExternalExpr): string {
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return ast.value.moduleName ? `EX:${ast.value.moduleName}:${ast.value.name}` :
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`EX:${ast.value.runtime.name}`;
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}
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visitReadVarExpr = invalid;
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visitWriteVarExpr = invalid;
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visitWriteKeyExpr = invalid;
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visitWritePropExpr = invalid;
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visitInvokeMethodExpr = invalid;
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visitInvokeFunctionExpr = invalid;
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visitInstantiateExpr = invalid;
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visitConditionalExpr = invalid;
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visitNotExpr = invalid;
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visitAssertNotNullExpr = invalid;
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visitCastExpr = invalid;
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visitFunctionExpr = invalid;
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visitBinaryOperatorExpr = invalid;
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visitReadPropExpr = invalid;
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visitReadKeyExpr = invalid;
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visitCommaExpr = invalid;
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}
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function invalid<T>(arg: o.Expression | o.Statement): never {
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throw new Error(
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`Invalid state: Visitor ${this.constructor.name} doesn't handle ${o.constructor.name}`);
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}
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function isVariable(e: o.Expression): e is o.ReadVarExpr {
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return e instanceof o.ReadVarExpr;
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}
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