Is there an efficient way in java to get the file size?
Well, I tried to messure it up with the code below:
For runs = 1 and iterations = 1 the URL method is fastest most times followed by channel. I runned this with some pause fresh about 10 times. So for one time access, using the URL is the fastest way I can think of:
For runs = 5 and iterations = 50 the picture draws different.
File must be caching the calls to the filesystem, while channels and URL have some overhead.
The benchmark given by GHad measures lots of other stuff (such as reflection, instantiating objects, etc.) besides getting the length. If we try to get rid of these things then for one call I get the following times in microseconds:
file sum___19.0, per Iteration___19.0 raf sum___16.0, per Iteration___16.0 channel sum__273.0, per Iteration__273.0
For 100 runs and 10000 iterations I get:
file sum__1767629.0, per Iteration__1.7676290000000001 raf sum___881284.0, per Iteration__0.8812840000000001 channel sum___414286.0, per Iteration__0.414286
I did run the following modified code giving as an argument the name of a 100MB file.
Measure it first - is it really slow for you in your particular circumstances? No point going off on a wild goose chase if it's not causing a problem!
I ran into this same issue. I needed to get the file size and modified date of 90,000 files on a network share. Using Java, and being as minimalistic as possible, it would take a very long time. (I needed to get the URL from the file, and the path of the object as well. So its varied somewhat, but more than an hour.) I then used a native Win32 executable, and did the same task, just dumping the file path, modified, and size to the console, and executed that from Java. The speed was amazing. The native process, and my string handling to read the data could process over 1000 items a second.
So even though people down ranked the above comment, this is a valid solution, and did solve my issue. In my case I knew the folders I needed the sizes of ahead of time, and I could pass that in the command line to my win32 app. I went from hours to process a directory to minutes.
The issue did also seem to be Windows specific. OS X did not have the same issue and could access network file info as fast as the OS could do so.
Java File handling on Windows is terrible. Local disk access for files is fine though. It was just network shares that caused the terrible performance. Windows could get info on the network share and calculate the total size in under a minute too.
In response to rgrig's benchmark, the time taken to open/close the FileChannel & RandomAccessFile instances also needs to be taken into account, as these classes will open a stream for reading the file.
After modifying the benchmark, I got these results for 1 iterations on a 85MB file:
For 10000 iterations on same file:
If all you need is the file size, file.length() is the fastest way to do it. If you plan to use the file for other purposes like reading/writing, then RAF seems to be a better bet. Just don't forget to close the file connection :-)
When I modify your code to use a file accessed by an absolute path instead of a resource, I get a different result (for 1 run, 1 iteration, and a 100,000 byte file -- times for a 10 byte file are identical to 100,000 bytes)
LENGTH sum: 33, per Iteration: 33.0
CHANNEL sum: 3626, per Iteration: 3626.0
URL sum: 294, per Iteration: 294.0
All the test cases in this post are flawed as they access the same file for each method tested. So disk caching kicks in which tests 2 and 3 benefit from. To prove my point I took test case provided by GHAD and changed the order of enumeration and below are the results.
Looking at result I think File.length() is the winner really.
Order of test is the order of output. You can even see the time taken on my machine varied between executions but File.Length() when not first, and incurring first disk access won.
Actually, I think the "ls" may be faster. There are definitely some issues in Java dealing with getting File info. Unfortunately there is no equivalent safe method of recursive ls for Windows. (cmd.exe's DIR /S can get confused and generate errors in infinite loops)
On XP, accessing a server on the LAN, it takes me 5 seconds in Windows to get the count of the files in a folder (33,000), and the total size.
When I iterate recursively through this in Java, it takes me over 5 minutes. I started measuring the time it takes to do file.length(), file.lastModified(), and file.toURI() and what I found is that 99% of my time is taken by those 3 calls. The 3 calls I actually need to do...
The difference for 1000 files is 15ms local versus 1800ms on server. The server path scanning in Java is ridiculously slow. If the native OS can be fast at scanning that same folder, why can't Java?
As a more complete test, I used WineMerge on XP to compare the modified date, and size of the files on the server versus the files locally. This was iterating over the entire directory tree of 33,000 files in each folder. Total time, 7 seconds. java: over 5 minutes.
So the original statement and question from the OP is true, and valid. Its less noticeable when dealing with a local file system. Doing a local compare of the folder with 33,000 items takes 3 seconds in WinMerge, and takes 32 seconds locally in Java. So again, java versus native is a 10x slowdown in these rudimentary tests.
Java 1.6.0_22 (latest), Gigabit LAN, and network connections, ping is less than 1ms (both in the same switch)
Java is slow.
If you want the file size of multiple files in a directory, use Files.walkFileTree. You can obtain the size from the BasicFileAttributes that you'll receive.
This is much faster then calling .length() on the result of File.listFiles() or using Files.size() on the result of Files.newDirectoryStream(). In my test cases it was about 100 times faster.
From GHad's benchmark, there are a few issue people have mentioned:
1>Like BalusC mentioned: stream.available() is flowed in this case.
Because available() returns an estimate of the number of bytes that can be read (or skipped over) from this input stream without blocking by the next invocation of a method for this input stream.
So 1st to remove the URL this approach.
2>As StuartH mentioned - the order the test run also make the cache difference, so take that out by run the test separately.
Now start test:
When CHANNEL one run alone:
When LENGTH one run alone:
So looks like the LENGTH one is the winner here: