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Using Java NIO use can copy file faster. I found two kind of method mainly over internet to do this job.

public static void copyFile(File sourceFile, File destinationFile) throws IOException {
    if (!destinationFile.exists()) {

    FileChannel source = null;
    FileChannel destination = null;
    try {
        source = new FileInputStream(sourceFile).getChannel();
        destination = new FileOutputStream(destinationFile).getChannel();
        destination.transferFrom(source, 0, source.size());
    } finally {
        if (source != null) {
        if (destination != null) {

In 20 very useful Java code snippets for Java Developers I found a different comment and trick:

public static void fileCopy(File in, File out) throws IOException {
    FileChannel inChannel = new FileInputStream(in).getChannel();
    FileChannel outChannel = new FileOutputStream(out).getChannel();
    try {
        // inChannel.transferTo(0, inChannel.size(), outChannel); // original -- apparently has trouble copying large files on Windows
        // magic number for Windows, (64Mb - 32Kb)
        int maxCount = (64 * 1024 * 1024) - (32 * 1024);
        long size = inChannel.size();
        long position = 0;
        while (position < size) {
            position += inChannel.transferTo(position, maxCount, outChannel);
    } finally {
        if (inChannel != null) {
        if (outChannel != null) {

But I didn't find or understand what is meaning of

"magic number for Windows, (64Mb - 32Kb)"

It says that inChannel.transferTo(0, inChannel.size(), outChannel) has problem in windows, is 32768 (= (64 * 1024 * 1024) - (32 * 1024)) byte is optimum for this method.

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3 Answers 3

Windows has a hard limit on the maximum transfer size, and if you exceed it you get a runtime exception. So you need to tune. The second version you give is superior because it doesn't assume the file was transferred completely with one transferTo() call, which agrees with the Javadoc.

Setting the transfer size more than about 1MB is pretty pointless anyway.

EDIT Your second version has a flaw. You should decrement maxCount by the amount transferred each time. It should be more like:

while (position < size) {
    long count = inChannel.transferTo(position, maxCount, outChannel);
    if (count > 0)
        position += count;
        maxCount -= count;
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Can you please elaborate "Setting the transfer size more than about 1MB is pretty pointless anyway"? Is the transfer size has any relation with transfer rate? What are the factors effect the file transfer (specifically in Java)? –  Tapas Bose Sep 15 '11 at 5:40
@Tapas Bose You use a larger transfer buffer to reduce the syscall overhwad of repeating actions, you also give a reasonable large buffer for OS optimizations like readahead and scather gather to take advantage. With 1MB most of those optimizations kick in. –  eckes Apr 24 '13 at 16:03
@TapasBose Setting the transfer size more than about 1MB is pretty pointless because there is no asymptotic benefit. What you're trying to achieve with larger transfer sizes is fewer context switches, and every time you double the transfer size you halve the context switch cost. Pretty soon it vanishes into the noise. –  EJP Jan 4 at 9:08
Why should maxCount be decremented? –  coolcfan Feb 11 at 7:57
AFAIK, maxCount should be decremented only if it is given the value of the file size in the very beginning: maxCount = filesize, and then decrement it in each loop. –  coolcfan Feb 25 at 10:12

I have read that it is for compatibility with the Windows 2000 operating system.

Source: http://www.rgagnon.com/javadetails/java-0064.html

Quote: In win2000, the transferTo() does not transfer files > than 2^31-1 bytes. it throws an exception of "java.io.IOException: Insufficient system resources exist to complete the requested service is thrown." The workaround is to copy in a loop 64Mb each time until there is no more data.

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No. Your link says the limitation applies to the entire Windows platform. Windows 2000 is only mentioned as a test platform. –  EJP Jan 4 at 4:29
Well, I have tested the transferTo with and without the loop on my Windows 8 platform and experienced only a time difference (indeed the loop was faster, but i cannot implement it in my projects without knowing why it was faster). However, the outcome of the tests were that both completed successfully with files over 2GB in size. I cannot find a source for your "Windows has a hard limit on the maximum transfer size" comment. Would you please provide one? –  Danny Rancher Jan 6 at 6:13

There appears to be anecdotal evidence that attempts to transfer more than 64MB at a time on certain Windows versions results in a slow copy. Hence the check: this appears to be the result of some detail of the underlying native code that implements the transferTo operation on Windows.

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Anecdotal evidence where? Which Windows versions? Mere unsubstantiated rumour is not an answer. –  EJP Jan 4 at 4:31
Ah, evidence. Take a look at bugs.sun.com/view_bug.do?bug_id=6822107: notice the 64MB number quoted. I'd guess that's the cleanest source for that specific magic value. –  Femi Jan 4 at 6:02
I read them years ago. There is nothing about 'certain Windows versions' or 'results in a slow copy' in that bug, or in either of the bugs linked from it. The actual number in the evaluation is 1.5GB. –  EJP Jan 4 at 6:07

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