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I'm using Delphi7 and i need a solution to a big problem.Can someone provide me a faster way for searching through files and folders than using findnext and findfirst? because i also process the data for each file/folder (creation date/author/size/etc) and it takes a lot of time...I've searched a lot under WinApi but probably I haven't see the best function in order to accomplish this. All the examples which I've found made in Delphi are using findfirst and findnext...

Also, I don't want to buy components or use some free ones...

Thanks in advance!

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10 Answers 10

up vote 7 down vote accepted

I think any component that you'd buy, would also use findfirst/findnext. Recursively, of course. I don't think there's a way to look at every directory and file, without actually looking at every directory and file.

As a benchmark to see if your code is reasonably fast, compare performance against WinDirStat (Just to the point where it's gathered data, and is ready to build its graph of the space usage.)
Source code is available, if you want to see what they're doing. It's C, but I expect it's using the same API calls.

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yes, i'm afraid it is this way...thank you – RBA Jun 17 '10 at 6:35
Maybe it's better to compare the performance against RidNacs from my website It's written in Delphi and uses findfirst/findnext and ... it's significantly faster than WinDirStat. :-) – splash Jun 23 '10 at 15:19
@splash: I was SO EXCITED about discovering RidNacs (it's ridiculously faster than WinDirStat!) but then I realized it doesn't support Unicode. :( Any chance that it might use Unicode APIs instead of ANSI? – Mehrdad Dec 24 '11 at 10:13

The one big thing you can do to really increase your performance is parse the MFT directly, if your volumes are NTFS. By doing this, you can enumerate files very, very quickly -- we're talking at least an order of magnitude faster. If all the metadata you need is part of the MFT record, your searches will complete much faster. Even if you have to do more reads for extra metadata, you'll be able to build up a list of candidate files very quickly.

The downside is that you'll have to parse the MFT yourself: There's no WinAPI functions for doing it that I'm aware of. You also get to worry about things that the shell normally does for you in worrying about things like hardlinks, junctions, reparse points, symlinks, shell links, etc.

However, if you want speed, the increase in complexity is the only way to achieve it.

I'm not aware of any available Delphi code that already implements an MFT parser, so you'll probably have to either use a 3rd party library or implement it yourself. I was going to suggest the Open Source (GPL) NTFS Undelete, which was written in Delphi, but it implements the MFT parsing via Python code and has a Delphi-Python bridge built in.

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If you want to get really fast search results consider using the Windows Search (API) or the Indexing service.

Other improvements might be to make use of threads and split the search for files and the gathering of file properties or just do a threaded search.

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thank you for this suggestion, but it's a little difficult to divide this recursive task into concurent threads... – RBA Jun 17 '10 at 6:26
A multi-threaded search on a hard drive is going to be brutal for performance unless the volume being searched can handle the IOPS this will generate. Otherwise you're going to drive performance down because of disk thrashing instead of helping. – afrazier Jun 17 '10 at 12:34

If you need to scan remote drive with that many files, I would strongly suggest doing so with a "client-server" design, so that the actual file scanning is always done locally and only the results are fetched remotely. That would save you a lot of time. Also, all "server" could scan in parallel.

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probably will be something like this, using also RemObjects for sending the info to central server which will fill the database. thank you – RBA Jun 17 '10 at 6:27

I once ran into a very similar problem where the number of files in the directory, coupled with findfirst/findnext was taking more time than was reasonable. With a few files its not an issue, but as you scale upwards into the thousands, or tens of thousands of files, then performance drops considerably.

Our solution was to use a queue file in a separate directory. As files are "added" to the system they were written to a queue file (was a fixed record file). When the system needed to process data, it would see if the file existed, and if so then rename it and open the renamed version (this way adds could occur for the next process pass). The file was then processed in order. We then archived the queue file & processed files into a subdirectory based on the date and time (for example: G:\PROCESSED\2010\06\25\1400 contained the files run at 2:00 pm on 6/25/2010).

Using this approach not only did we reach an almost "real-time" processing of files (delayed only by the frequency by which we processed the queue file), but we also insured processing of files in the order they were added.

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this is the best solution...but, the program will not be installed like a task or like a service, to scan first time, and then hook the OS events in order to 'add' to queue the modifications. It is the best solution, but i am constrained by other 'specialized' people to do in some specific way. Solution that i found is: parse all the system for only the directories, make a temp file with this structure which will contain also a kind of indexes. after that, i will parse the structure, get all files for each element from the structure, and create another temporary file which will contain index – RBA Jun 17 '10 at 6:32
from the first one and information needed. Thank you and best regards – RBA Jun 17 '10 at 6:33

If your program is running on Windows 7 or Server 2008 R2, there are some enhancements to the Windows FindFirstFileEx function which will make it run a bit faster. You would have to copy and modify the VCL functions to incorporate the new options.

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i know that function but i'm constrained to use findfirst. thanks – RBA Jun 17 '10 at 6:25

There isn't much room for optimization with a findfirst / findnext loop, because it's mostly I/O bound: the operating system needs to read this information from your HDD!

The proof: Make a small program that implements a simple findfirst / findnext loop that does NOTHING with the files it finds. Restart your computer and run it over your big directory, note the time it takes to finish. Then run it again, without restarting the computer. You'll notice the second run is significantly faster, because the operating system cached the information!

If you know for sure the directory you're trying to scan is heavily accessed by the OS because of some other application that's using the data (this would put the directory structure information into the OS's cache and make scanning not be bound to the I/O) you can try running several findfirst/findnext loops in parallel using threads. The down side of this is that if the directory structure is not allready in the OS cache your algorithm is again bound to HDD in/out and it might be worst then the original because you're now making multiple parallel I/O requests that need to be handled by the same device.

When I had to tackle this same problem I decided against parallel loops because the SECOND run of the application is allways so much faster, prooving I'm bound to I/O and no ammount of CPU optimisation would fix the I/O bottleneck.

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I solved a similar problem by using two threads. This way I could "process" the file(s) at the same time as they where scanned from the disk. In my case the processing was significantly slower than scanning so I also had to limit the number of files in memory at one time.


Scan the file structure, for each "hit" add the path+file to a TList/TStringList or similar using Syncronize(). Remember to Sleep() inside the loop to let the OS have some time too.

PseudoCode for the thread:

  fCount : Cardinal;
  fLastFile : String;
  procedure GetListCount;
  procedure AddToList;  
  FileList : TStringList;
  procedure Execute; Override;

procedure TMyScanThread.GetListCount;
  fCount := FileList.Count;

procedure TMyScanThread.AddToList;

procedure TMyScanThread.Execute;
        { Get the list size }
        Syncronize( GetListCount );
        if fCount<500 then
          // FindFirst code goes here
          { Add a file to the list }
          fLastFile := SR.Name; // Store Filename in local var
          Syncronize( AddToList ); // Call method to add to list
        end else


Get the oldest entry in the list, and Process it. Then output results to DB.

This class is implemented similarly with Syncronized methods that access the list.

One alternative to the Syncronize() calls is to use a TCriticalSection. Implementing Syncronization between threads is often a matter of taste and the task at hand ...

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When I started to run into performance problems working with lots of small files on in the file system I moved to storing the files as blobs in database. There is no reason why related information like size, creation, and author couldn't also be stored in the database. Once the tables are populated in the database, I suspect that the database engine could do a much faster job of finding records (files) than any solution that we are going to come up with since Database code is highly specialized for efficient searches through large data sets. This will definitely be more flexible since adding a new search would be as simple as creating a new Select statement. Example: Select * from files where author = 'bob' and size > 10000

I'm not sure that approach will help you. Could you tell us more about what you are doing with these files and the search criteria.

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