blob: 74f57f76ab8773fd9461057724813564c9e73ffe [file] [log] [blame]
// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
//
// Dart test program for testing file I/O.
// OtherResources=empty_file
// OtherResources=file_test.txt
// OtherResources=fixed_length_file
// OtherResources=read_as_text.dat
// OtherResources=readline_test1.dat
import 'dart:async';
import 'dart:convert';
import 'dart:collection';
import 'dart:io';
import "package:async_helper/async_helper.dart";
import "package:expect/expect.dart";
import "package:path/path.dart";
class MyListOfOneElement extends Object
with ListMixin<int>
implements List<int> {
int _value;
MyListOfOneElement(this._value);
int get length => 1;
operator [](int index) => _value;
void set length(int index) {
throw "Unsupported";
}
operator []=(int index, value) {
if (index != 0) {
throw "Unsupported";
} else {
_value = value;
}
}
}
class FileTest {
static Directory tempDirectory;
static int numLiveAsyncTests = 0;
static void asyncTestStarted() {
asyncStart();
++numLiveAsyncTests;
}
static void asyncTestDone(String name) {
asyncEnd();
--numLiveAsyncTests;
if (numLiveAsyncTests == 0) {
deleteTempDirectory();
}
}
static void createTempDirectory(Function doNext) {
Directory.systemTemp.createTemp('dart_file').then((temp) {
tempDirectory = temp;
doNext();
});
}
static void deleteTempDirectory() {
tempDirectory.deleteSync(recursive: true);
}
// Test for file read functionality.
static void testReadStream() {
// Read a file and check part of it's contents.
String filename = getFilename("file_test.txt");
File file = new File(filename);
Expect.isTrue('$file'.contains(file.path));
var subscription;
List<int> buffer = new List<int>();
subscription = file.openRead().listen((d) {
buffer.addAll(d);
if (buffer.length >= 12) {
subscription.cancel();
Expect.equals(47, buffer[0]); // represents '/' in the file.
Expect.equals(47, buffer[1]); // represents '/' in the file.
Expect.equals(32, buffer[2]); // represents ' ' in the file.
Expect.equals(67, buffer[3]); // represents 'C' in the file.
Expect.equals(111, buffer[4]); // represents 'o' in the file.
Expect.equals(112, buffer[5]); // represents 'p' in the file.
Expect.equals(121, buffer[6]); // represents 'y' in the file.
Expect.equals(114, buffer[7]); // represents 'r' in the file.
Expect.equals(105, buffer[8]); // represents 'i' in the file.
Expect.equals(103, buffer[9]); // represents 'g' in the file.
Expect.equals(104, buffer[10]); // represents 'h' in the file.
Expect.equals(116, buffer[11]); // represents 't' in the file.
}
});
}
// Test for file read and write functionality.
static void testReadWriteStream() {
asyncTestStarted();
// Read a file.
String inFilename = getFilename("fixed_length_file");
File file;
int bytesRead;
var file1 = new File(inFilename);
List<int> buffer = new List<int>();
file1.openRead().listen((d) {
buffer.addAll(d);
}, onDone: () {
Expect.equals(42, buffer.length);
// Write the contents of the file just read into another file.
String outFilename = tempDirectory.path + "/out_read_write_stream";
var file2 = new File(outFilename);
var output = file2.openWrite();
output.add(buffer);
output.flush().then((_) => output.close());
output.done.then((_) {
// Now read the contents of the file just written.
List<int> buffer2 = new List<int>();
new File(outFilename).openRead().listen((d) {
buffer2.addAll(d);
}, onDone: () {
Expect.equals(42, buffer2.length);
// Now compare the two buffers to check if they are
// identical.
for (int i = 0; i < buffer.length; i++) {
Expect.equals(buffer[i], buffer2[i]);
}
// Delete the output file.
file2.deleteSync();
Expect.isFalse(file2.existsSync());
asyncTestDone("testReadWriteStream");
});
});
});
}
// Test for file stream buffered handling of large files.
static void testReadWriteStreamLargeFile() {
// Create the test data - arbitrary binary data.
List<int> buffer = new List<int>(100000);
for (var i = 0; i < buffer.length; ++i) {
buffer[i] = i % 256;
}
String filename = tempDirectory.path + "/out_read_write_stream_large_file";
File file = new File(filename);
IOSink output = file.openWrite();
output.add(buffer);
output.add(buffer);
output.flush().then((_) => output.close());
asyncTestStarted();
output.done
.then((_) {
Stream input = file.openRead();
int position = 0;
final int expectedLength = 200000;
// Start an independent asynchronous check on the length.
Future lengthTest() {
asyncTestStarted();
return file.length().then((len) {
Expect.equals(expectedLength, len);
asyncTestDone('testReadWriteStreamLargeFile: length check');
});
}
// Immediate read should read 0 bytes.
Future contentTest() {
asyncTestStarted();
var completer = new Completer();
input.listen((data) {
for (int i = 0; i < data.length; ++i) {
Expect.equals(buffer[(i + position) % buffer.length], data[i]);
}
position += data.length;
}, onError: (error, trace) {
print('Error on input in testReadWriteStreamLargeFile');
print('with error $error');
if (trace != null) print("StackTrace: $trace");
throw error;
}, onDone: () {
Expect.equals(expectedLength, position);
testPipe(file, buffer).then((_) {
asyncTestDone('testReadWriteStreamLargeFile: main test');
}).catchError((error, trace) {
print('Exception while deleting ReadWriteStreamLargeFile file');
print('Exception $error');
if (trace != null) print("StackTrace: $trace");
throw error;
}).whenComplete(completer.complete);
});
return completer.future;
}
return Future.forEach([lengthTest, contentTest], (test) => test());
})
.whenComplete(file.delete)
.whenComplete(() {
asyncTestDone('testReadWriteStreamLargeFile finished');
});
}
static Future testPipe(File file, buffer) {
String outputFilename = '${file.path}_copy';
File outputFile = new File(outputFilename);
var input = file.openRead();
var output = outputFile.openWrite();
Completer done = new Completer();
input.pipe(output).then((_) {
var copy = outputFile.openRead();
int position = 0;
copy.listen((d) {
for (int i = 0; i < d.length; i++) {
Expect.equals(buffer[(position + i) % buffer.length], d[i]);
}
position += d.length;
}, onDone: () {
Expect.equals(2 * buffer.length, position);
outputFile.delete().then((ignore) {
done.complete();
});
});
});
return done.future;
}
static void testRead() {
asyncStart();
// Read a file and check part of it's contents.
String filename = getFilename("file_test.txt");
File file = new File(filename);
file.open(mode: FileMode.read).then((RandomAccessFile file) {
List<int> buffer = new List<int>(10);
file.readInto(buffer, 0, 5).then((bytes_read) {
Expect.equals(5, bytes_read);
file.readInto(buffer, 5, 10).then((bytes_read) {
Expect.equals(5, bytes_read);
Expect.equals(47, buffer[0]); // represents '/' in the file.
Expect.equals(47, buffer[1]); // represents '/' in the file.
Expect.equals(32, buffer[2]); // represents ' ' in the file.
Expect.equals(67, buffer[3]); // represents 'C' in the file.
Expect.equals(111, buffer[4]); // represents 'o' in the file.
Expect.equals(112, buffer[5]); // represents 'p' in the file.
Expect.equals(121, buffer[6]); // represents 'y' in the file.
Expect.equals(114, buffer[7]); // represents 'r' in the file.
Expect.equals(105, buffer[8]); // represents 'i' in the file.
Expect.equals(103, buffer[9]); // represents 'g' in the file.
file.close().then((ignore) => asyncEnd());
});
});
});
}
static void testReadSync() {
// Read a file and check part of it's contents.
String filename = getFilename("file_test.txt");
RandomAccessFile raf = (new File(filename)).openSync();
List<int> buffer = new List<int>(42);
int bytes_read = 0;
bytes_read = raf.readIntoSync(buffer, 0, 12);
Expect.equals(12, bytes_read);
bytes_read = raf.readIntoSync(buffer, 12, 42);
Expect.equals(30, bytes_read);
Expect.equals(47, buffer[0]); // represents '/' in the file.
Expect.equals(47, buffer[1]); // represents '/' in the file.
Expect.equals(32, buffer[2]); // represents ' ' in the file.
Expect.equals(67, buffer[3]); // represents 'C' in the file.
Expect.equals(111, buffer[4]); // represents 'o' in the file.
Expect.equals(112, buffer[5]); // represents 'p' in the file.
Expect.equals(121, buffer[6]); // represents 'y' in the file.
Expect.equals(114, buffer[7]); // represents 'r' in the file.
Expect.equals(105, buffer[8]); // represents 'i' in the file.
Expect.equals(103, buffer[9]); // represents 'g' in the file.
Expect.equals(104, buffer[10]); // represents 'h' in the file.
Expect.equals(116, buffer[11]); // represents 't' in the file.
raf.closeSync();
filename = getFilename("fixed_length_file");
File file = new File(filename);
int len = file.lengthSync();
int read(int length) {
var f = file.openSync();
int res = f.readSync(length).length;
f.closeSync();
return res;
}
Expect.equals(0, read(0));
Expect.equals(1, read(1));
Expect.equals(len - 1, read(len - 1));
Expect.equals(len, read(len));
Expect.equals(len, read(len + 1));
Expect.equals(len, read(len * 2));
Expect.equals(len, read(len * 10));
}
// Test for file read and write functionality.
static void testReadWrite() {
asyncTestStarted();
// Read a file.
String inFilename = getFilename("fixed_length_file");
final File file = new File(inFilename);
file.open(mode: FileMode.read).then((openedFile) {
List<int> buffer1 = new List<int>(42);
openedFile.readInto(buffer1, 0, 42).then((bytes_read) {
Expect.equals(42, bytes_read);
openedFile.close().then((ignore) {
// Write the contents of the file just read into another file.
String outFilename = tempDirectory.path + "/out_read_write";
final File file2 = new File(outFilename);
file2.create().then((ignore) {
file2.resolveSymbolicLinks().then((s) {
Expect.isTrue(new File(s).existsSync());
if (s[0] != '/' && s[0] != '\\' && s[1] != ':') {
Expect.fail("Not a full path");
}
file2.open(mode: FileMode.write).then((openedFile2) {
openedFile2.writeFrom(buffer1, 0, bytes_read).then((ignore) {
openedFile2.close().then((ignore) {
List<int> buffer2 = new List<int>(bytes_read);
final File file3 = new File(outFilename);
file3.open(mode: FileMode.read).then((openedFile3) {
openedFile3.readInto(buffer2, 0, 42).then((bytes_read) {
Expect.equals(42, bytes_read);
openedFile3.close().then((ignore) {
// Now compare the two buffers to check if they
// are identical.
Expect.equals(buffer1.length, buffer2.length);
for (int i = 0; i < buffer1.length; i++) {
Expect.equals(buffer1[i], buffer2[i]);
}
// Delete the output file.
final file4 = file3;
file4.delete().then((ignore) {
file4.exists().then((exists) {
Expect.isFalse(exists);
asyncTestDone("testReadWrite");
});
});
});
});
});
});
});
});
});
});
});
});
});
}
static void testWriteAppend() {
String content = "foobar";
String filename = tempDirectory.path + "/write_append";
File file = new File(filename);
file.createSync();
Expect.isTrue(new File(filename).existsSync());
List<int> buffer = content.codeUnits;
RandomAccessFile openedFile = file.openSync(mode: FileMode.write);
openedFile.writeFromSync(buffer, 0, buffer.length);
openedFile.closeSync();
// Reopen the file in write mode to ensure that we overwrite the content.
openedFile = (new File(filename)).openSync(mode: FileMode.write);
openedFile.writeFromSync(buffer, 0, buffer.length);
Expect.equals(content.length, openedFile.lengthSync());
openedFile.closeSync();
// Open the file in append mode and ensure that we do not overwrite
// the existing content.
openedFile = (new File(filename)).openSync(mode: FileMode.append);
openedFile.writeFromSync(buffer, 2, buffer.length - 2);
Expect.equals(content.length + content.length - 4, openedFile.lengthSync());
Expect.equals(content + content.substring(2, content.length - 2),
file.readAsStringSync());
openedFile.closeSync();
file.deleteSync();
}
static void testOutputStreamWriteAppend() {
asyncTestStarted();
String content = "foobar";
String filename = tempDirectory.path + "/outstream_write_append";
File file = new File(filename);
file.createSync();
List<int> buffer = content.codeUnits;
var output = file.openWrite();
output.add(buffer);
output.close();
output.done.then((_) {
File file2 = new File(filename);
var appendingOutput = file2.openWrite(mode: FileMode.append);
appendingOutput.add(buffer);
appendingOutput.close();
appendingOutput.done.then((_) {
File file3 = new File(filename);
file3.open(mode: FileMode.read).then((RandomAccessFile openedFile) {
openedFile.length().then((int length) {
Expect.equals(content.length * 2, length);
openedFile.close().then((ignore) {
file3.delete().then((ignore) {
asyncTestDone("testOutputStreamWriteAppend");
});
});
});
});
});
});
}
// Test for file read and write functionality.
static void testOutputStreamWriteString() {
asyncTestStarted();
String content = "foobar";
String filename = tempDirectory.path + "/outstream_write_string";
File file = new File(filename);
file.createSync();
List<int> buffer = content.codeUnits;
var output = file.openWrite();
output.write("abcdABCD");
output.encoding = utf8;
output.write("abcdABCD");
output.encoding = latin1;
output.write("abcdABCD");
output.encoding = ascii;
output.write("abcdABCD");
output.encoding = utf8;
output.write("æøå");
output.close();
output.done.then((_) {
RandomAccessFile raf = file.openSync();
Expect.equals(38, raf.lengthSync());
raf.close().then((ignore) {
asyncTestDone("testOutputStreamWriteString");
});
});
}
static void testReadWriteSync() {
// Read a file.
String inFilename = getFilename("fixed_length_file");
RandomAccessFile file = (new File(inFilename)).openSync();
List<int> buffer1 = new List<int>(42);
int bytes_read = 0;
int bytes_written = 0;
bytes_read = file.readIntoSync(buffer1, 0, 42);
Expect.equals(42, bytes_read);
file.closeSync();
// Write the contents of the file just read into another file.
String outFilename = tempDirectory.path + "/out_read_write_sync";
File outFile = new File(outFilename);
outFile.createSync();
String path = outFile.resolveSymbolicLinksSync();
if (path[0] != '/' && path[0] != '\\' && path[1] != ':') {
Expect.fail("Not a full path");
}
Expect.isTrue(new File(path).existsSync());
RandomAccessFile openedFile = outFile.openSync(mode: FileMode.write);
openedFile.writeFromSync(buffer1, 0, bytes_read);
openedFile.closeSync();
// Now read the contents of the file just written.
List<int> buffer2 = new List<int>(bytes_read);
openedFile = (new File(outFilename)).openSync();
bytes_read = openedFile.readIntoSync(buffer2, 0, 42);
Expect.equals(42, bytes_read);
openedFile.closeSync();
// Now compare the two buffers to check if they are identical.
Expect.equals(buffer1.length, buffer2.length);
for (int i = 0; i < buffer1.length; i++) {
Expect.equals(buffer1[i], buffer2[i]);
}
// Delete the output file.
outFile.deleteSync();
Expect.isFalse(outFile.existsSync());
}
static void testReadWriteNoArgsSync() {
// Read a file.
String inFilename = getFilename("fixed_length_file");
RandomAccessFile file = (new File(inFilename)).openSync();
List<int> buffer1 = new List<int>(42);
int bytes_read = 0;
int bytes_written = 0;
bytes_read = file.readIntoSync(buffer1);
Expect.equals(42, bytes_read);
file.closeSync();
// Write the contents of the file just read into another file.
String outFilename = tempDirectory.path + "/out_read_write_sync";
File outFile = new File(outFilename);
outFile.createSync();
String path = outFile.resolveSymbolicLinksSync();
if (path[0] != '/' && path[0] != '\\' && path[1] != ':') {
Expect.fail("Not a full path");
}
Expect.isTrue(new File(path).existsSync());
RandomAccessFile openedFile = outFile.openSync(mode: FileMode.write);
openedFile.writeFromSync(buffer1);
openedFile.closeSync();
// Now read the contents of the file just written.
List<int> buffer2 = new List<int>(bytes_read);
openedFile = (new File(outFilename)).openSync();
bytes_read = openedFile.readIntoSync(buffer2, 0);
Expect.equals(42, bytes_read);
openedFile.closeSync();
// Now compare the two buffers to check if they are identical.
Expect.equals(buffer1.length, buffer2.length);
for (int i = 0; i < buffer1.length; i++) {
Expect.equals(buffer1[i], buffer2[i]);
}
// Delete the output file.
outFile.deleteSync();
Expect.isFalse(outFile.existsSync());
}
static void testReadEmptyFileSync() {
String fileName = tempDirectory.path + "/empty_file_sync";
File file = new File(fileName);
file.createSync();
RandomAccessFile openedFile = file.openSync();
Expect.equals(-1, openedFile.readByteSync());
openedFile.closeSync();
file.deleteSync();
}
static void testReadEmptyFile() {
String fileName = tempDirectory.path + "/empty_file";
File file = new File(fileName);
asyncTestStarted();
file.create().then((ignore) {
file.open(mode: FileMode.read).then((RandomAccessFile openedFile) {
var readByteFuture = openedFile.readByte();
readByteFuture.then((int byte) {
Expect.equals(-1, byte);
openedFile.close().then((ignore) {
asyncTestDone("testReadEmptyFile");
});
});
});
});
}
// Test for file write of different types of lists.
static void testWriteVariousLists() {
asyncTestStarted();
final String fileName = "${tempDirectory.path}/testWriteVariousLists";
final File file = new File(fileName);
file.create().then((ignore) {
file.open(mode: FileMode.write).then((RandomAccessFile openedFile) {
// Write bytes from 0 to 7.
openedFile.writeFromSync([0], 0, 1);
openedFile.writeFromSync(const [1], 0, 1);
openedFile.writeFromSync(new MyListOfOneElement(2), 0, 1);
var x = -259;
var y = 0;
openedFile.writeFromSync([y - x], 0, 1);
openedFile.writeFromSync([260], 0, 1); // 260 = 256 + 4 = 0x104.
openedFile.writeFromSync(const [261], 0, 1);
openedFile.writeFromSync(new MyListOfOneElement(262), 0, 1);
x = 0;
y = 263;
openedFile.writeFrom([y - x], 0, 1).then((ignore) {
openedFile.close().then((ignore) {
// Check the written bytes.
final File file2 = new File(fileName);
var openedFile2 = file2.openSync();
var length = openedFile2.lengthSync();
Expect.equals(8, length);
var data = new List<int>(length);
openedFile2.readIntoSync(data, 0, length);
for (var i = 0; i < data.length; i++) {
Expect.equals(i, data[i]);
}
openedFile2.closeSync();
file2.deleteSync();
asyncTestDone("testWriteVariousLists");
});
});
});
});
}
static void testWriteFromOffset() {
Directory tmp;
RandomAccessFile raf;
try {
tmp = tempDirectory.createTempSync('write_from_offset_test_');
File f = new File('${tmp.path}/file')..createSync();
f.writeAsStringSync('pre-existing content\n', flush: true);
raf = f.openSync(mode: FileMode.append);
String truth = "Hello world";
raf.writeFromSync(utf8.encode('Hello world'), 2, 5);
raf.flushSync();
Expect.equals(f.readAsStringSync(), 'pre-existing content\nllo');
} finally {
if (raf != null) {
raf.closeSync();
}
if (tmp != null) {
tmp.deleteSync(recursive: true);
}
}
}
static void testDirectory() {
asyncTestStarted();
var tempDir = tempDirectory.path;
var file = new File("${tempDir}/testDirectory");
file.create().then((ignore) {
Directory d = file.parent;
d.exists().then((xexists) {
Expect.isTrue(xexists);
Expect.isTrue(d.path.endsWith(tempDir));
file.delete().then((ignore) => asyncTestDone("testDirectory"));
});
});
}
static void testDirectorySync() {
var tempDir = tempDirectory.path;
var file = new File("${tempDir}/testDirectorySync");
// Non-existing file still provides the directory.
Expect.equals("${tempDir}", file.parent.path);
file.createSync();
// Check that the path of the returned directory is the temp directory.
Directory d = file.parent;
Expect.isTrue(d.existsSync());
Expect.isTrue(d.path.endsWith(tempDir));
file.deleteSync();
// The directory getter does not care about file or type of file
// system entity.
Expect.equals("${tempDir}", file.parent.path);
file = new File("foo");
Expect.equals(".", file.parent.path);
file = new File(".");
Expect.equals(".", file.parent.path);
}
// Test for file length functionality.
static void testLength() {
asyncTestStarted();
String filename = getFilename("fixed_length_file");
File file = new File(filename);
RandomAccessFile openedFile = file.openSync();
openedFile.length().then((length) {
Expect.equals(42, length);
openedFile.close().then((ignore) => asyncTestDone("testLength"));
});
file.length().then((length) {
Expect.equals(42, length);
});
}
static void testLengthSync() {
String filename = getFilename("fixed_length_file");
File file = new File(filename);
RandomAccessFile openedFile = file.openSync();
Expect.equals(42, file.lengthSync());
Expect.equals(42, openedFile.lengthSync());
openedFile.closeSync();
}
static void testLengthSyncDirectory() {
Directory tmp = tempDirectory.createTempSync('file_length_test_');
String dirPath = '${tmp.path}/dir';
new Directory(dirPath).createSync();
try {
new File(dirPath).lengthSync();
Expect.fail('Expected operation to throw');
} catch (e) {
if (e is! FileSystemException) {
print(e);
}
Expect.isTrue(e is FileSystemException);
} finally {
tmp.deleteSync(recursive: true);
}
}
// Test for file position functionality.
static void testPosition() {
asyncTestStarted();
String filename = getFilename("fixed_length_file");
RandomAccessFile input = (new File(filename)).openSync();
input.position().then((position) {
Expect.equals(0, position);
List<int> buffer = new List<int>(100);
input.readInto(buffer, 0, 12).then((bytes_read) {
input.position().then((position) {
Expect.equals(12, position);
input.readInto(buffer, 12, 18).then((bytes_read) {
input.position().then((position) {
Expect.equals(18, position);
input.setPosition(8).then((ignore) {
input.position().then((position) {
Expect.equals(8, position);
input.close().then((ignore) => asyncTestDone("testPosition"));
});
});
});
});
});
});
});
}
static void testPositionSync() {
String filename = getFilename("fixed_length_file");
RandomAccessFile input = (new File(filename)).openSync();
Expect.equals(0, input.positionSync());
List<int> buffer = new List<int>(100);
input.readIntoSync(buffer, 0, 12);
Expect.equals(12, input.positionSync());
input.readIntoSync(buffer, 12, 18);
Expect.equals(18, input.positionSync());
input.setPositionSync(8);
Expect.equals(8, input.positionSync());
input.closeSync();
}
static void testTruncate() {
asyncTestStarted();
File file = new File(tempDirectory.path + "/out_truncate");
List<int> buffer = const [65, 65, 65, 65, 65, 65, 65, 65, 65, 65];
file.open(mode: FileMode.write).then((RandomAccessFile openedFile) {
openedFile.writeFrom(buffer, 0, 10).then((ignore) {
openedFile.length().then((length) {
Expect.equals(10, length);
openedFile.truncate(5).then((ignore) {
openedFile.length().then((length) {
Expect.equals(5, length);
openedFile.close().then((ignore) {
file.delete().then((ignore) {
file.exists().then((exists) {
Expect.isFalse(exists);
asyncTestDone("testTruncate");
});
});
});
});
});
});
});
});
}
static void testTruncateSync() {
File file = new File(tempDirectory.path + "/out_truncate_sync");
List<int> buffer = const [65, 65, 65, 65, 65, 65, 65, 65, 65, 65];
RandomAccessFile openedFile = file.openSync(mode: FileMode.write);
openedFile.writeFromSync(buffer, 0, 10);
Expect.equals(10, openedFile.lengthSync());
openedFile.truncateSync(5);
Expect.equals(5, openedFile.lengthSync());
bool exceptionCaught = false;
bool wrongExceptionCaught = false;
try {
openedFile.truncateSync(-5);
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
openedFile.closeSync();
file.deleteSync();
Expect.isFalse(file.existsSync());
}
static testReadInto() async {
asyncTestStarted();
File file = new File(tempDirectory.path + "/out_read_into");
var openedFile = await file.open(mode: FileMode.write);
await openedFile.writeFrom(const [1, 2, 3]);
await openedFile.setPosition(0);
var list = [null, null, null];
Expect.equals(3, await openedFile.readInto(list));
Expect.listEquals([1, 2, 3], list);
read(start, end, length, expected) async {
var list = [null, null, null];
await openedFile.setPosition(0);
Expect.equals(length, await openedFile.readInto(list, start, end));
Expect.listEquals(expected, list);
return list;
}
await read(0, 3, 3, [1, 2, 3]);
await read(0, 2, 2, [1, 2, null]);
await read(1, 2, 1, [null, 1, null]);
await read(1, 3, 2, [null, 1, 2]);
await read(2, 3, 1, [null, null, 1]);
await read(0, 0, 0, [null, null, null]);
await openedFile.close();
asyncTestDone("testReadInto");
}
static void testReadIntoSync() {
File file = new File(tempDirectory.path + "/out_read_into_sync");
var openedFile = file.openSync(mode: FileMode.write);
openedFile.writeFromSync(const [1, 2, 3]);
openedFile.setPositionSync(0);
var list = [null, null, null];
Expect.equals(3, openedFile.readIntoSync(list));
Expect.listEquals([1, 2, 3], list);
read(start, end, length, expected) {
var list = [null, null, null];
openedFile.setPositionSync(0);
Expect.equals(length, openedFile.readIntoSync(list, start, end));
Expect.listEquals(expected, list);
return list;
}
read(0, 3, 3, [1, 2, 3]);
read(0, 2, 2, [1, 2, null]);
read(1, 2, 1, [null, 1, null]);
read(1, 3, 2, [null, 1, 2]);
read(2, 3, 1, [null, null, 1]);
read(0, 0, 0, [null, null, null]);
openedFile.closeSync();
}
static testWriteFrom() async {
asyncTestStarted();
File file = new File(tempDirectory.path + "/out_write_from");
var buffer = const [1, 2, 3];
var openedFile = await file.open(mode: FileMode.write);
await openedFile.writeFrom(buffer);
var result = []..addAll(buffer);
;
write([start, end]) async {
var returnValue = await openedFile.writeFrom(buffer, start, end);
Expect.identical(openedFile, returnValue);
result.addAll(buffer.sublist(start, end));
}
await write(0, 3);
await write(0, 2);
await write(1, 2);
await write(1, 3);
await write(2, 3);
await write(0, 0);
var bytesFromFile = await file.readAsBytes();
Expect.listEquals(result, bytesFromFile);
await openedFile.close();
asyncTestDone("testWriteFrom");
}
static void testWriteFromSync() {
File file = new File(tempDirectory.path + "/out_write_from_sync");
var buffer = const [1, 2, 3];
var openedFile = file.openSync(mode: FileMode.write);
openedFile.writeFromSync(buffer);
var result = []..addAll(buffer);
;
write([start, end]) {
openedFile.writeFromSync(buffer, start, end);
result.addAll(buffer.sublist(start, end));
}
write(0, 3);
write(0, 2);
write(1, 2);
write(1, 3);
write(2, 3);
var bytesFromFile = file.readAsBytesSync();
Expect.listEquals(result, bytesFromFile);
openedFile.closeSync();
}
// Tests exception handling after file was closed.
static void testCloseException() {
bool exceptionCaught = false;
bool wrongExceptionCaught = false;
File input = new File(tempDirectory.path + "/out_close_exception");
RandomAccessFile openedFile = input.openSync(mode: FileMode.write);
openedFile.closeSync();
try {
openedFile.readByteSync();
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
openedFile.writeByteSync(1);
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
openedFile.writeStringSync("Test");
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(100);
openedFile.readIntoSync(buffer, 0, 10);
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(100);
openedFile.writeFromSync(buffer, 0, 10);
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
openedFile.positionSync();
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
openedFile.lengthSync();
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
openedFile.flushSync();
} on FileSystemException catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
input.deleteSync();
}
// Tests stream exception handling after file was closed.
static void testCloseExceptionStream() {
asyncTestStarted();
List<int> buffer = new List<int>(42);
File file = new File(tempDirectory.path + "/out_close_exception_stream");
file.createSync();
var output = file.openWrite();
output.close();
Expect.throws(() {
output.add(buffer);
});
output.done.then((_) {
file.deleteSync();
asyncTestDone("testCloseExceptionStream");
});
}
// Tests buffer out of bounds exception.
static void testBufferOutOfBoundsException() {
bool exceptionCaught = false;
bool wrongExceptionCaught = false;
File file = new File(tempDirectory.path + "/out_buffer_out_of_bounds");
RandomAccessFile openedFile = file.openSync(mode: FileMode.write);
try {
List<int> buffer = new List<int>(10);
openedFile.readIntoSync(buffer, 0, 12);
} on RangeError catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(10);
openedFile.readIntoSync(buffer, 6, 12);
} on RangeError catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(10);
openedFile.readIntoSync(buffer, -1, 1);
} on RangeError catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(10);
openedFile.readIntoSync(buffer, 0, -1);
} on RangeError catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(10);
openedFile.writeFromSync(buffer, 0, 12);
} on RangeError catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(10);
openedFile.writeFromSync(buffer, 6, 12);
} on RangeError catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(10);
openedFile.writeFromSync(buffer, -1, 1);
} on RangeError catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
exceptionCaught = false;
try {
List<int> buffer = new List<int>(10);
openedFile.writeFromSync(buffer, 0, -1);
} on RangeError catch (ex) {
exceptionCaught = true;
} on Exception catch (ex) {
wrongExceptionCaught = true;
}
Expect.equals(true, exceptionCaught);
Expect.equals(true, !wrongExceptionCaught);
openedFile.closeSync();
file.deleteSync();
}
static void testOpenDirectoryAsFile() {
var f = new File('.');
var future = f.open(mode: FileMode.read);
future
.then((r) => Expect.fail('Directory opened as file'))
.catchError((e) {});
}
static void testOpenDirectoryAsFileSync() {
var f = new File('.');
try {
f.openSync();
Expect.fail("Expected exception opening directory as file");
} catch (e) {
Expect.isTrue(e is FileSystemException);
}
}
static void testReadAsBytes() {
asyncTestStarted();
var name = getFilename("fixed_length_file");
var f = new File(name);
f.readAsBytes().then((bytes) {
Expect.isTrue(new String.fromCharCodes(bytes).endsWith("42 bytes."));
Expect.equals(42, bytes.length);
asyncTestDone("testReadAsBytes");
});
}
static void testReadAsBytesEmptyFile() {
asyncTestStarted();
var name = getFilename("empty_file");
var f = new File(name);
f.readAsBytes().then((bytes) {
Expect.equals(0, bytes.length);
asyncTestDone("testReadAsBytesEmptyFile");
});
}
static void testReadAsBytesSync() {
var name = getFilename("fixed_length_file");
var bytes = new File(name).readAsBytesSync();
Expect.isTrue(new String.fromCharCodes(bytes).endsWith("42 bytes."));
Expect.equals(bytes.length, 42);
}
static void testReadAsBytesSyncEmptyFile() {
var name = getFilename("empty_file");
var bytes = new File(name).readAsBytesSync();
Expect.equals(bytes.length, 0);
}
static void testReadAsText() {
asyncTestStarted();
var name = getFilename("fixed_length_file");
var f = new File(name);
f.readAsString(encoding: utf8).then((text) {
Expect.isTrue(text.endsWith("42 bytes."));
Expect.equals(42, text.length);
var name = getFilename("read_as_text.dat");
var f = new File(name);
f.readAsString(encoding: utf8).then((text) {
Expect.equals(6, text.length);
var expected = [955, 120, 46, 32, 120, 10];
Expect.listEquals(expected, text.codeUnits);
f.readAsString(encoding: latin1).then((text) {
Expect.equals(7, text.length);
var expected = [206, 187, 120, 46, 32, 120, 10];
Expect.listEquals(expected, text.codeUnits);
var readAsStringFuture = f.readAsString(encoding: ascii);
readAsStringFuture.then((text) {
Expect.fail("Non-ascii char should cause error");
}).catchError((e) {
asyncTestDone("testReadAsText");
});
});
});
});
}
static void testReadAsTextEmptyFile() {
asyncTestStarted();
var name = getFilename("empty_file");
var f = new File(name);
f.readAsString(encoding: utf8).then((text) {
Expect.equals(0, text.length);
asyncTestDone("testReadAsTextEmptyFile");
return true;
});
}
static void testReadAsTextSync() {
var name = getFilename("fixed_length_file");
var text = new File(name).readAsStringSync();
Expect.isTrue(text.endsWith("42 bytes."));
Expect.equals(42, text.length);
name = getFilename("read_as_text.dat");
text = new File(name).readAsStringSync();
Expect.equals(6, text.length);
var expected = [955, 120, 46, 32, 120, 10];
Expect.listEquals(expected, text.codeUnits);
// First character is not ASCII. The default ASCII decoder will throw.
Expect.throws(() => new File(name).readAsStringSync(encoding: ascii),
(e) => e is FileSystemException);
// We can use an ASCII decoder that inserts the replacement character.
var lenientAscii = const AsciiCodec(allowInvalid: true);
text = new File(name).readAsStringSync(encoding: lenientAscii);
// Default replacement character is the Unicode replacement character.
expected = [
unicodeReplacementCharacterRune,
unicodeReplacementCharacterRune,
120,
46,
32,
120,
10
];
Expect.listEquals(expected, text.codeUnits);
text = new File(name).readAsStringSync(encoding: latin1);
expected = [206, 187, 120, 46, 32, 120, 10];
Expect.equals(7, text.length);
Expect.listEquals(expected, text.codeUnits);
}
static void testReadAsTextSyncEmptyFile() {
var name = getFilename("empty_file");
var text = new File(name).readAsStringSync();
Expect.equals(0, text.length);
}
static void testReadAsLines() {
asyncTestStarted();
var name = getFilename("fixed_length_file");
var f = new File(name);
f.readAsLines(encoding: utf8).then((lines) {
Expect.equals(1, lines.length);
var line = lines[0];
Expect.isTrue(line.endsWith("42 bytes."));
Expect.equals(42, line.length);
asyncTestDone("testReadAsLines");
});
}
static void testReadAsLinesSync() {
var name = getFilename("fixed_length_file");
var lines = new File(name).readAsLinesSync();
Expect.equals(1, lines.length);
var line = lines[0];
Expect.isTrue(line.endsWith("42 bytes."));
Expect.equals(42, line.length);
name = getFilename("readline_test1.dat");
lines = new File(name).readAsLinesSync();
Expect.equals(10, lines.length);
}
static void testReadAsErrors() {
asyncTestStarted();
var f = new File('.');
Expect.throws(f.readAsBytesSync, (e) => e is FileSystemException);
Expect.throws(f.readAsStringSync, (e) => e is FileSystemException);
Expect.throws(f.readAsLinesSync, (e) => e is FileSystemException);
var readAsBytesFuture = f.readAsBytes();
readAsBytesFuture
.then((bytes) => Expect.fail("no bytes expected"))
.catchError((e) {
var readAsStringFuture = f.readAsString(encoding: utf8);
readAsStringFuture
.then((text) => Expect.fail("no text expected"))
.catchError((e) {
var readAsLinesFuture = f.readAsLines(encoding: utf8);
readAsLinesFuture
.then((lines) => Expect.fail("no lines expected"))
.catchError((e) {
asyncTestDone("testReadAsLines");
});
});
});
}
static void testLastModified() {
asyncTestStarted();
new File(Platform.executable).lastModified().then((modified) {
Expect.isTrue(modified is DateTime);
Expect.isTrue(modified.isBefore(new DateTime.now()));
asyncTestDone("testLastModified");
});
}
static void testLastAccessed() {
asyncTestStarted();
new File(Platform.executable).lastAccessed().then((accessed) {
Expect.isTrue(accessed is DateTime);
Expect.isTrue(accessed.isBefore(new DateTime.now()));
asyncTestDone("testLastAccessed");
});
}
static void testDoubleAsyncOperation() {
asyncTestStarted();
var file = new File(Platform.executable).openSync();
var completer = new Completer();
int done = 0;
bool error = false;
void getLength() {
file.length().catchError((e) {
error = true;
}).whenComplete(() {
if (++done == 2) {
asyncTestDone("testDoubleAsyncOperation");
Expect.isTrue(error);
file.lengthSync();
file.closeSync();
}
});
}
getLength();
getLength();
Expect.throws(() => file.lengthSync());
}
static void testLastModifiedSync() {
var modified = new File(Platform.executable).lastModifiedSync();
Expect.isTrue(modified is DateTime);
Expect.isTrue(modified.isBefore(new DateTime.now()));
}
static void testLastAccessedSync() {
var accessed = new File(Platform.executable).lastAccessedSync();
Expect.isTrue(accessed is DateTime);
Expect.isTrue(accessed.isBefore(new DateTime.now()));
}
static void testLastModifiedSyncDirectory() {
Directory tmp = tempDirectory.createTempSync('file_last_modified_test_');
String dirPath = '${tmp.path}/dir';
new Directory(dirPath).createSync();
try {
new File(dirPath).lastModifiedSync();
Expect.fail('Expected operation to throw');
} catch (e) {
if (e is! FileSystemException) {
print(e);
}
Expect.isTrue(e is FileSystemException);
} finally {
tmp.deleteSync(recursive: true);
}
}
static void testLastAccessedSyncDirectory() {
Directory tmp = tempDirectory.createTempSync('file_last_accessed_test_');
String dirPath = '${tmp.path}/dir';
new Directory(dirPath).createSync();
try {
new File(dirPath).lastAccessedSync();
Expect.fail('Expected operation to throw');
} catch (e) {
if (e is! FileSystemException) {
print(e);
}
Expect.isTrue(e is FileSystemException);
} finally {
tmp.deleteSync(recursive: true);
}
}
static void testSetLastModifiedSync() {
String newFilePath = '${tempDirectory.path}/set_last_modified_sync_test';
File file = new File(newFilePath);
file.createSync();
DateTime modifiedTime = new DateTime(2016, 1, 1);
file.setLastModifiedSync(modifiedTime);
FileStat stat = file.statSync();
Expect.equals(2016, stat.modified.year);
Expect.equals(1, stat.modified.month);
Expect.equals(1, stat.modified.day);
}
static testSetLastModified() async {
asyncTestStarted();
String newFilePath = '${tempDirectory.path}/set_last_modified_test';
File file = new File(newFilePath);
file.createSync();
DateTime modifiedTime = new DateTime(2016, 1, 1);
await file.setLastModified(modifiedTime);
FileStat stat = await file.stat();
Expect.equals(2016, stat.modified.year);
Expect.equals(1, stat.modified.month);
Expect.equals(1, stat.modified.day);
asyncTestDone("testSetLastModified");
}
static void testSetLastModifiedSyncDirectory() {
Directory tmp = tempDirectory.createTempSync('file_last_modified_test_');
String dirPath = '${tmp.path}/dir';
new Directory(dirPath).createSync();
try {
DateTime modifiedTime = new DateTime(2016, 1, 1);
new File(dirPath).setLastModifiedSync(modifiedTime);
Expect.fail('Expected operation to throw');
} catch (e) {
if (e is! FileSystemException) {
print(e);
}
Expect.isTrue(e is FileSystemException);
} finally {
tmp.deleteSync(recursive: true);
}
}
static void testSetLastAccessedSync() {
String newFilePath = '${tempDirectory.path}/set_last_accessed_sync_test';
File file = new File(newFilePath);
file.createSync();
DateTime accessedTime = new DateTime(2016, 1, 1);
file.setLastAccessedSync(accessedTime);
FileStat stat = file.statSync();
Expect.equals(2016, stat.accessed.year);
Expect.equals(1, stat.accessed.month);
Expect.equals(1, stat.accessed.day);
}
static testSetLastAccessed() async {
asyncTestStarted();
String newFilePath = '${tempDirectory.path}/set_last_accessed_test';
File file = new File(newFilePath);
file.createSync();
DateTime accessedTime = new DateTime(2016, 1, 1);
await file.setLastAccessed(accessedTime);
FileStat stat = await file.stat();
Expect.equals(2016, stat.accessed.year);
Expect.equals(1, stat.accessed.month);
Expect.equals(1, stat.accessed.day);
asyncTestDone("testSetLastAccessed");
}
static void testSetLastAccessedSyncDirectory() {
Directory tmp = tempDirectory.createTempSync('file_last_accessed_test_');
String dirPath = '${tmp.path}/dir';
new Directory(dirPath).createSync();
try {
DateTime accessedTime = new DateTime(2016, 1, 1);
new File(dirPath).setLastAccessedSync(accessedTime);
Expect.fail('Expected operation to throw');
} catch (e) {
if (e is! FileSystemException) {
print(e);
}
Expect.isTrue(e is FileSystemException);
} finally {
tmp.deleteSync(recursive: true);
}
}
// Test that opens the same file for writing then for appending to test
// that the file is not truncated when opened for appending.
static void testAppend() {
asyncTestStarted();
var file = new File('${tempDirectory.path}/out_append');
file.open(mode: FileMode.write).then((openedFile) {
openedFile.writeString("asdf").then((ignore) {
openedFile.close().then((ignore) {
file.open(mode: FileMode.append).then((openedFile) {
openedFile.length().then((length) {
Expect.equals(4, length);
openedFile.writeString("asdf").then((ignore) {
openedFile.length().then((length) {
Expect.equals(8, length);
openedFile.close().then((ignore) {
file.delete().then((ignore) {
file.exists().then((exists) {
Expect.isFalse(exists);
asyncTestDone("testAppend");
});
});
});
});
});
});
});
});
});
});
}
static void testAppendSync() {
var file = new File('${tempDirectory.path}/out_append_sync');
var openedFile = file.openSync(mode: FileMode.write);
openedFile.writeStringSync("asdf");
Expect.equals(4, openedFile.lengthSync());
openedFile.closeSync();
openedFile = file.openSync(mode: FileMode.write);
openedFile.setPositionSync(4);
openedFile.writeStringSync("asdf");
Expect.equals(8, openedFile.lengthSync());
openedFile.closeSync();
file.deleteSync();
Expect.isFalse(file.existsSync());
}
static void testWriteStringUtf8() {
asyncTestStarted();
var file = new File('${tempDirectory.path}/out_write_string');
var string = new String.fromCharCodes([0x192]);
file.open(mode: FileMode.write).then((openedFile) {
openedFile.writeString(string).then((_) {
openedFile.length().then((l) {
Expect.equals(2, l);
openedFile.close().then((_) {
file.open(mode: FileMode.append).then((openedFile) {
openedFile.setPosition(2).then((_) {
openedFile.writeString(string).then((_) {
openedFile.length().then((l) {
Expect.equals(4, l);
openedFile.close().then((_) {
file.readAsString().then((readBack) {
Expect.stringEquals(readBack, '$string$string');
file.delete().then((_) {
file.exists().then((e) {
Expect.isFalse(e);
asyncTestDone("testWriteStringUtf8");
});
});
});
});
});
});
});
});
});
});
});
});
}
static void testWriteStringUtf8Sync() {
var file = new File('${tempDirectory.path}/out_write_string_sync');
var string = new String.fromCharCodes([0x192]);
var openedFile = file.openSync(mode: FileMode.write);
openedFile.writeStringSync(string);
Expect.equals(2, openedFile.lengthSync());
openedFile.closeSync();
openedFile = file.openSync(mode: FileMode.append);
openedFile.setPositionSync(2);
openedFile.writeStringSync(string);
Expect.equals(4, openedFile.lengthSync());
openedFile.closeSync();
var readBack = file.readAsStringSync();
Expect.stringEquals(readBack, '$string$string');
file.deleteSync();
Expect.isFalse(file.existsSync());
}
static void testRename({bool targetExists}) {
lift(Function f) => (futureValue) => futureValue.then((value) => f(value));
asyncTestStarted();
String source = join(tempDirectory.path, 'rename_${targetExists}_source');
String dest = join(tempDirectory.path, 'rename_${targetExists}_dest');
var file = new File(source);
var newfile = new File(dest);
file
.create()
.then((_) => targetExists ? newfile.create() : null)
.then((_) => file.rename(dest))
.then((_) => lift(Expect.isFalse)(file.exists()))
.then((_) => lift(Expect.isTrue)(newfile.exists()))
.then((_) => newfile.delete())
.then((_) => lift(Expect.isFalse)(newfile.exists()))
.then((_) {
if (Platform.operatingSystem != "windows") {
new Link(source).create(dest).then((_) => file.rename("xxx")).then((_) {
throw "Rename of broken link succeeded";
}).catchError((e) {
Expect.isTrue(e is FileSystemException);
asyncTestDone("testRename$targetExists");
});
} else {
asyncTestDone("testRename$targetExists");
}
});
}
static void testRenameSync({bool targetExists}) {
String source = join(tempDirectory.path, 'rename_source');
String dest = join(tempDirectory.path, 'rename_dest');
var file = new File(source);
var newfile = new File(dest);
file.createSync();
if (targetExists) {
newfile.createSync();
}
var result = file.renameSync(dest);
Expect.isFalse(file.existsSync());
Expect.isTrue(newfile.existsSync());
Expect.equals(result.path, newfile.path);
newfile.deleteSync();
Expect.isFalse(newfile.existsSync());
if (Platform.operatingSystem != "windows") {
var brokenLink = new Link(source);
brokenLink.createSync(dest);
Expect.throws(() => file.renameSync('xxx'));
brokenLink.deleteSync();
}
}
static String getFilename(String path) {
return Platform.script.resolve(path).toFilePath();
}
// Main test entrypoint.
static testMain() {
asyncStart();
testRead();
testReadSync();
testReadStream();
testLengthSync();
testPositionSync();
testOpenDirectoryAsFile();
testOpenDirectoryAsFileSync();
testReadAsBytesSync();
testReadAsBytesSyncEmptyFile();
testReadAsTextSync();
testReadAsTextSyncEmptyFile();
testReadAsLinesSync();
testLastModifiedSync();
testLastAccessedSync();
createTempDirectory(() {
testLength();
testLengthSyncDirectory();
testReadWrite();
testReadWriteSync();
testReadWriteNoArgsSync();
testReadWriteStream();
testReadEmptyFileSync();
testReadEmptyFile();
testReadWriteStreamLargeFile();
testReadAsBytes();
testReadAsBytesEmptyFile();
testReadAsText();
testReadAsTextEmptyFile();
testReadAsLines();
testReadAsErrors();
testPosition();
testTruncate();
testTruncateSync();
testReadInto();
testReadIntoSync();
testWriteFrom();
testWriteFromSync();
testCloseException();
testCloseExceptionStream();
testBufferOutOfBoundsException();
testAppend();
testAppendSync();
testWriteAppend();
testOutputStreamWriteAppend();
testOutputStreamWriteString();
testWriteVariousLists();
testWriteFromOffset();
testDirectory();
testDirectorySync();
testWriteStringUtf8();
testWriteStringUtf8Sync();
testRename(targetExists: false);
testRenameSync(targetExists: false);
testRename(targetExists: true);
testRenameSync(targetExists: true);
testLastModified();
testLastAccessed();
testLastModifiedSyncDirectory();
testLastAccessedSyncDirectory();
testSetLastModified();
testSetLastModifiedSync();
testSetLastModifiedSyncDirectory();
testSetLastAccessed();
testSetLastAccessedSync();
testSetLastAccessedSyncDirectory();
testDoubleAsyncOperation();
asyncEnd();
});
}
}
main() {
FileTest.testMain();
}