// Copyright 2016 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Flags: --harmony-async-await --expose-debug-as debug var Debug = debug.Debug; var breakPointCount = 0; function listener(event, exec_state, event_data, data) { if (event != Debug.DebugEvent.Break) return; ++breakPointCount; try { if (breakPointCount === 1) { assertEquals( "inner", exec_state.frame(0).evaluate("inner").value()); assertThrows(() => exec_state.frame(0).evaluate("letInner").value(), ReferenceError); assertThrows(() => exec_state.frame(0).evaluate("constInner").value(), ReferenceError); assertEquals("outer", exec_state.frame(0).evaluate("outer").value()); assertEquals( "const outer", exec_state.frame(0).evaluate("constOuter").value()); assertEquals( "let outer", exec_state.frame(0).evaluate("letOuter").value()); assertEquals("outer", exec_state.frame(1).evaluate("outer").value()); assertEquals( "const outer", exec_state.frame(1).evaluate("constOuter").value()); assertEquals( "let outer", exec_state.frame(1).evaluate("letOuter").value()); assertThrows(() => exec_state.frame(0).evaluate("withVar").value(), ReferenceError); } else if (breakPointCount === 2) { assertEquals( "inner", exec_state.frame(0).evaluate("inner").value()); assertThrows(() => exec_state.frame(0).evaluate("letInner").value(), ReferenceError); assertThrows(() => exec_state.frame(0).evaluate("constInner").value(), ReferenceError); assertEquals(57, exec_state.frame(0).evaluate("x").value()); assertEquals(100, exec_state.frame(0).evaluate("y").value()); // From breakPointCount === 1 and later, it's not possible to access // earlier framestates. assertEquals("outer", exec_state.frame(0).evaluate("outer").value()); assertEquals( "const outer", exec_state.frame(0).evaluate("constOuter").value()); assertEquals( "let outer", exec_state.frame(0).evaluate("letOuter").value()); exec_state.frame(0).evaluate("x = `x later(${x})`"); exec_state.frame(0).evaluate("y = `y later(${y})`"); exec_state.frame(0).evaluate("z = `ZEE`"); } else if (breakPointCount === 3) { assertEquals( "inner", exec_state.frame(0).evaluate("inner").value()); assertEquals( "let inner", exec_state.frame(0).evaluate("letInner").value()); assertEquals( "const inner", exec_state.frame(0).evaluate("constInner").value()); } else if (breakPointCount === 4) { assertEquals( "oop", exec_state.frame(0).evaluate("error.message").value()); assertEquals( "Error", exec_state.frame(0).evaluate("error.constructor.name").value()); assertEquals("floof", exec_state.frame(0).evaluate("bun").value()); assertThrows(() => exec_state.frame(0).evaluate("cow").value(), ReferenceError); assertEquals("outer", exec_state.frame(0).evaluate("outer").value()); assertEquals( "const outer", exec_state.frame(0).evaluate("constOuter").value()); assertEquals( "let outer", exec_state.frame(0).evaluate("letOuter").value()); } } catch (e) { print(e.stack); quit(1); } } Debug.setListener(listener); var outer = "outer"; const constOuter = "const outer"; let letOuter = "let outer" async function thrower() { return Promise.reject(new Error("oop")); } async function testLater() { return { x: 57, y: 100 }; } async function test() { var inner = "inner"; debugger; let withVar = await testLater(); with (withVar) { debugger; } assertEquals("x later(57)", withVar.x); assertEquals("y later(100)", withVar.y); assertEquals(undefined, withVar.z); assertEquals("ZEE", z); let letInner = "let inner"; const constInner = "const inner"; debugger; try { await thrower(); } catch (error) { const bun = "floof"; debugger; let cow = "moo"; } } test(). then(x => { Debug.setListener(null); }). catch(error => { print(error.stack); quit(1); Debug.setListener(null); });