// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license. use test_util as util; #[cfg(unix)] #[test] fn pty_multiline() { use std::io::{Read, Write}; run_pty_test(|master| { master.write_all(b"(\n1 + 2\n)\n").unwrap(); master.write_all(b"{\nfoo: \"foo\"\n}\n").unwrap(); master.write_all(b"`\nfoo\n`\n").unwrap(); master.write_all(b"`\n\\`\n`\n").unwrap(); master.write_all(b"'{'\n").unwrap(); master.write_all(b"'('\n").unwrap(); master.write_all(b"'['\n").unwrap(); master.write_all(b"/{/\n").unwrap(); master.write_all(b"/\\(/\n").unwrap(); master.write_all(b"/\\[/\n").unwrap(); master.write_all(b"console.log(\"{test1} abc {test2} def {{test3}}\".match(/{([^{].+?)}/));\n").unwrap(); master.write_all(b"close();\n").unwrap(); let mut output = String::new(); master.read_to_string(&mut output).unwrap(); assert!(output.contains('3')); assert!(output.contains("{ foo: \"foo\" }")); assert!(output.contains("\"\\nfoo\\n\"")); assert!(output.contains("\"\\n`\\n\"")); assert!(output.contains("\"{\"")); assert!(output.contains("\"(\"")); assert!(output.contains("\"[\"")); assert!(output.contains("/{/")); assert!(output.contains("/\\(/")); assert!(output.contains("/\\[/")); assert!(output.contains("[ \"{test1}\", \"test1\" ]")); }); } #[cfg(unix)] #[test] fn pty_unpaired_braces() { use std::io::{Read, Write}; run_pty_test(|master| { master.write_all(b")\n").unwrap(); master.write_all(b"]\n").unwrap(); master.write_all(b"}\n").unwrap(); master.write_all(b"close();\n").unwrap(); let mut output = String::new(); master.read_to_string(&mut output).unwrap(); assert!(output.contains("Unexpected token `)`")); assert!(output.contains("Unexpected token `]`")); assert!(output.contains("Unexpected token `}`")); }); } #[cfg(unix)] #[test] fn pty_bad_input() { use std::io::{Read, Write}; run_pty_test(|master| { master.write_all(b"'\\u{1f3b5}'[0]\n").unwrap(); master.write_all(b"close();\n").unwrap(); let mut output = String::new(); master.read_to_string(&mut output).unwrap(); assert!(output.contains("Unterminated string literal")); }); } #[cfg(unix)] #[test] fn pty_syntax_error_input() { use std::io::{Read, Write}; run_pty_test(|master| { master.write_all(b"('\\u')\n").unwrap(); master.write_all(b"('\n").unwrap(); master.write_all(b"close();\n").unwrap(); let mut output = String::new(); master.read_to_string(&mut output).unwrap(); assert!(output.contains("Unterminated string constant")); assert!(output.contains("Unexpected eof")); }); } #[cfg(unix)] #[test] fn pty_complete_symbol() { use std::io::{Read, Write}; run_pty_test(|master| { master.write_all(b"Symbol.it\t\n").unwrap(); master.write_all(b"close();\n").unwrap(); let mut output = String::new(); master.read_to_string(&mut output).unwrap(); assert!(output.contains("Symbol(Symbol.iterator)")); }); } #[cfg(unix)] #[test] fn pty_complete_declarations() { use std::io::{Read, Write}; run_pty_test(|master| { master.write_all(b"class MyClass {}\n").unwrap(); master.write_all(b"My\t\n").unwrap(); master.write_all(b"let myVar;\n").unwrap(); master.write_all(b"myV\t\n").unwrap(); master.write_all(b"close();\n").unwrap(); let mut output = String::new(); master.read_to_string(&mut output).unwrap(); assert!(output.contains("> MyClass")); assert!(output.contains("> myVar")); }); } #[cfg(unix)] #[test] fn pty_complete_primitives() { use std::io::{Read, Write}; run_pty_test(|master| { master.write_all(b"let func = function test(){}\n").unwrap(); master.write_all(b"func.appl\t\n").unwrap(); master.write_all(b"let str = ''\n").unwrap(); master.write_all(b"str.leng\t\n").unwrap(); master.write_all(b"false.valueO\t\n").unwrap(); master.write_all(b"5n.valueO\t\n").unwrap(); master.write_all(b"let num = 5\n").unwrap(); master.write_all(b"num.toStrin\t\n").unwrap(); master.write_all(b"close();\n").unwrap(); let mut output = String::new(); master.read_to_string(&mut output).unwrap(); assert!(output.contains("> func.apply")); assert!(output.contains("> str.length")); assert!(output.contains("> 5n.valueOf")); assert!(output.contains("> false.valueOf")); assert!(output.contains("> num.toString")); }); } #[cfg(unix)] #[test] fn pty_ignore_symbols() { use std::io::{Read, Write}; run_pty_test(|master| { master.write_all(b"Array.Symbol\t\n").unwrap(); master.write_all(b"close();\n").unwrap(); let mut output = String::new(); master.read_to_string(&mut output).unwrap(); assert!(output.contains("undefined")); assert!( !output.contains("Uncaught TypeError: Array.Symbol is not a function") ); }); } #[cfg(unix)] fn run_pty_test(mut run: impl FnMut(&mut util::pty::fork::Master)) { use util::pty::fork::*; let deno_exe = util::deno_exe_path(); let fork = Fork::from_ptmx().unwrap(); if let Ok(mut master) = fork.is_parent() { run(&mut master); fork.wait().unwrap(); } else { std::env::set_var("NO_COLOR", "1"); let err = exec::Command::new(deno_exe).arg("repl").exec(); println!("err {}", err); unreachable!() } } #[test] fn console_log() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["console.log('hello')", "'world'"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("hello\nundefined\n\"world\"\n")); assert!(err.is_empty()); } #[test] fn object_literal() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["{}", "{ foo: 'bar' }"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("{}\n{ foo: \"bar\" }\n")); assert!(err.is_empty()); } #[test] fn block_expression() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["{};", "{\"\"}"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("undefined\n\"\"\n")); assert!(err.is_empty()); } #[test] fn await_resolve() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["await Promise.resolve('done')"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("\"done\"\n")); assert!(err.is_empty()); } #[test] fn await_timeout() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["await new Promise((r) => setTimeout(r, 0, 'done'))"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("\"done\"\n")); assert!(err.is_empty()); } #[test] fn let_redeclaration() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["let foo = 0;", "foo", "let foo = 1;", "foo"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("undefined\n0\nundefined\n1\n")); assert!(err.is_empty()); } #[test] fn repl_cwd() { let (_out, err) = util::run_and_collect_output( true, "repl", Some(vec!["Deno.cwd()"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(err.is_empty()); } #[test] fn typescript() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec![ "function add(a: number, b: number) { return a + b }", "const result: number = add(1, 2) as number;", "result", ]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("undefined\nundefined\n3\n")); assert!(err.is_empty()); } #[test] fn typescript_declarations() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec![ "namespace Test { export enum Values { A, B, C } }", "Test.Values.A", "Test.Values.C", "interface MyInterface { prop: string; }", "type MyTypeAlias = string;", ]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("undefined\n0\n2\nundefined\nundefined\n")); assert!(err.is_empty()); } #[test] fn typescript_decorators() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec![ "function dec(target) { target.prototype.test = () => 2; }", "@dec class Test {}", "new Test().test()", ]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("undefined\nundefined\n2\n")); assert!(err.is_empty()); } #[test] fn eof() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["1 + 2"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("3\n")); assert!(err.is_empty()); } #[test] fn strict() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec![ "let a = {};", "Object.preventExtensions(a);", "a.c = 1;", ]), None, false, ); assert!(out.contains( "Uncaught TypeError: Cannot add property c, object is not extensible" )); assert!(err.is_empty()); } #[test] fn close_command() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["close()", "'ignored'"]), None, false, ); assert!(!out.contains("ignored")); assert!(err.is_empty()); } #[test] fn function() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["Deno.writeFileSync"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("[Function: writeFileSync]\n")); assert!(err.is_empty()); } #[test] #[ignore] fn multiline() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["(\n1 + 2\n)"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("3\n")); assert!(err.is_empty()); } #[test] fn import() { let (out, _) = util::run_and_collect_output( true, "repl", Some(vec!["import('./subdir/auto_print_hello.ts')"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.contains("hello!\n")); } #[test] fn import_declarations() { let (out, _) = util::run_and_collect_output( true, "repl", Some(vec!["import './subdir/auto_print_hello.ts';"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.contains("hello!\n")); } #[test] fn eval_unterminated() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["eval('{')"]), None, false, ); assert!(out.contains("Unexpected end of input")); assert!(err.is_empty()); } #[test] fn unpaired_braces() { for right_brace in &[")", "]", "}"] { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec![right_brace]), None, false, ); assert!(out.contains("Unexpected token")); assert!(err.is_empty()); } } #[test] fn reference_error() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["not_a_variable"]), None, false, ); assert!(out.contains("not_a_variable is not defined")); assert!(err.is_empty()); } #[test] fn syntax_error() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec![ "syntax error", "2", // ensure it keeps accepting input after ]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("parse error: Expected ';', '}' or at 1:7\n2\n")); assert!(err.is_empty()); } #[test] fn syntax_error_jsx() { // JSX is not supported in the REPL let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["const element =
;"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.contains("Unexpected token `>`")); assert!(err.is_empty()); } #[test] fn type_error() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["console()"]), None, false, ); assert!(out.contains("console is not a function")); assert!(err.is_empty()); } #[test] fn variable() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["var a = 123;", "a"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("undefined\n123\n")); assert!(err.is_empty()); } #[test] fn lexical_scoped_variable() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["let a = 123;", "a"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("undefined\n123\n")); assert!(err.is_empty()); } #[test] fn missing_deno_dir() { use std::fs::{read_dir, remove_dir_all}; const DENO_DIR: &str = "nonexistent"; let test_deno_dir = util::root_path().join("cli").join("tests").join(DENO_DIR); let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["1"]), Some(vec![ ("DENO_DIR".to_owned(), DENO_DIR.to_owned()), ("NO_COLOR".to_owned(), "1".to_owned()), ]), false, ); assert!(read_dir(&test_deno_dir).is_ok()); remove_dir_all(&test_deno_dir).unwrap(); assert!(out.ends_with("1\n")); assert!(err.is_empty()); } #[test] fn save_last_eval() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["1", "_"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("1\n1\n")); assert!(err.is_empty()); } #[test] fn save_last_thrown() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["throw 1", "_error"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.ends_with("Uncaught 1\n1\n")); assert!(err.is_empty()); } #[test] fn assign_underscore() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["_ = 1", "2", "_"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!( out.ends_with("Last evaluation result is no longer saved to _.\n1\n2\n1\n") ); assert!(err.is_empty()); } #[test] fn assign_underscore_error() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec!["_error = 1", "throw 2", "_error"]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); println!("{}", out); assert!(out.ends_with( "Last thrown error is no longer saved to _error.\n1\nUncaught 2\n1\n" )); assert!(err.is_empty()); } #[test] fn custom_inspect() { let (out, err) = util::run_and_collect_output( true, "repl", Some(vec![ r#"const o = { [Symbol.for("Deno.customInspect")]() { throw new Error('Oops custom inspect error'); }, };"#, "o", ]), Some(vec![("NO_COLOR".to_owned(), "1".to_owned())]), false, ); assert!(out.contains("Oops custom inspect error")); assert!(err.is_empty()); }