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I have come up against this problem a few times at inopportune moments:

  • trying to work on open source Java projects with deep paths
  • Storing deep Fitnesse wiki trees in source control
  • An error trying to use Bazaar to import my source control tree

Why does this limit exist?

Why hasn't it been removed yet?

How do you cope with the path limit? ... and no, switching to linux or Mac OS X is not a valid answer to this question ;)

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@Artelius: Actually, Windows (at least from Win2K onwards) does support junction points (en.wikipedia.org/wiki/NTFS_junction_point), and Vista onwards support NT Symbolic links (en.wikipedia.org/wiki/NTFS_symbolic_link). Anyway, while symlinks can help make longer/nested paths more friendly, I can't think how symlinks would help if you're hitting path length limits. –  Ashutosh Mehra Dec 10 '09 at 11:29
Bad news: This will never get fixed. visualstudio.uservoice.com/forums/121579-visual-studio/… –  Patrick Szalapski Oct 4 '13 at 14:52
On my Windows 8 PC the limit appears to be roughly 1024 characters, so YMMV. –  William Jockusch May 31 '14 at 18:04
Even if this limit did not exist, there are always lots of other limits, and every one of them could be annoying at some point. The point is why is this limit so low? After the era of 8.3, and with mega/giga sized hardware, a path should now be a dynamically allocated string with a virtually unlimited size. –  Roland Aug 25 '14 at 9:58
Coping: the windows error messages could be better. I just got the error "cannot find file..." (twice) when trying to open an Excel spreadsheet in a long directory after unpacking a zip in my Downloads directory. The error should rather be about trying to use a path exceeding MAX_PATH, or should be showing a truncated file name instead of the entire too-long name. –  Roland Aug 25 '14 at 10:04

9 Answers 9

up vote 65 down vote accepted

Quoting this article http://msdn.microsoft.com/en-us/library/aa365247(VS.85).aspx#maxpath

Maximum Path Length Limitation

In the Windows API (with some exceptions discussed in the following paragraphs), the maximum length for a path is MAX_PATH, which is defined as 260 characters. A local path is structured in the following order: drive letter, colon, backslash, name components separated by backslashes, and a terminating null character. For example, the maximum path on drive D is "D:\some 256-character path string<NUL>" where "<NUL>" represents the invisible terminating null character for the current system codepage. (The characters < > are used here for visual clarity and cannot be part of a valid path string.)

Now we see that it is 1+2+256+1 or [drive][:][path][null] = 260. One could assume that 256 is a reasonable fixed string length from the DOS days. And going back to the DOS APIs we realize that the system tracked the current path per drive, and we have 26 (32 with symbols) maximum drives (and current directories).

The INT 0x21 AH=0x47 says “This function returns the path description without the drive letter and the initial backslash.” So we see that the system stores the CWD as a pair (drive, path) and you ask for the path by specifying the drive (1=A, 2=B, …), if you specify a 0 then it assumes the path for the drive returned by INT 0x21 AH=0x15 AL=0x19. So now we know why it is 260 and not 256, because those 4 bytes are not stored in the path string.

Why a 256 byte path string, because 640K is enough RAM.

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While link only answers are a big NO NO, the article actually answers the question quite clearly: –  Radu Simionescu Apr 28 '14 at 9:03
The Windows API limits the length, even in the latest OS. Microsoft is afraid to break hundreds of millions of operating systems in use today if this were to change because they don't have geniuses working for them anymore that understand the API inside and out, like they did in the 1980s and 1990s. The risk is not worth changing it. serverfault.com/questions/163419/… –  MacGyver Jul 16 '14 at 21:40
@MacGyver Sorry, but that's utter nonsense. Microsoft doesn't want to break the millions of poorly written applications out there that assume things about the system that were never guaranteed. Unfortunately, things were the same way for so long that developers came to rely on them, so changing it now would break 3rd party applications and MS would get the blame. –  Basic Aug 28 '14 at 9:36
btw there is no proof that Gates ever said the "640K Ram is enough for everyone" computerworld.com/article/2534312 –  for3st Nov 26 '14 at 15:34
@IanBoyd Constants can change between software versions (or even between builds). The reason to declare a constant is that it's a single point of reference. If all software checked on the constant as appropriate, then a change wouldn't be an issue. –  Basic Jul 20 at 17:59

This is not strictly true as the NTFS filesystem supports paths up to 32k characters. You can use the win32 api and "\\?\" prefix the path to use greater than 260 characters.

A detailed explanation of long path from the .Net BCL team blog.
A small excerpt highlights the issue with long paths

Another concern is inconsistent behavior that would result by exposing long path support. Long paths with the \\?\ prefix can be used in most of the file-related Windows APIs, but not all Windows APIs. For example, LoadLibrary, which maps a module into the address of the calling process, fails if the file name is longer than MAX_PATH. So this means MoveFile will let you move a DLL to a location such that its path is longer than 260 characters, but when you try to load the DLL, it would fail. There are similar examples throughout the Windows APIs; some workarounds exist, but they are on a case-by-case basis.

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Fair enough, but it means you have to use P/Invoke in a lot of places and this, to my mind, reduces the portability of your .Net code. What if I wanted to keep Mono-compatibility? –  Jeffrey Cameron Dec 10 '09 at 22:50
My point was that you can use long path if you really wanted to. But I agree that it is a pain and personally I would avoid this as well. –  Pratik Dec 11 '09 at 2:12
This should be the chosen answer. Actually answers the question posed by user of WHY this limit exists AND provides a work-around. Upvote for visibility –  KyleMit Mar 20 '13 at 21:06
It sounds to me that Microsoft needs to fix their APIs, and I guess this is not a priority. I was surprised that this limit still exists in Windows 8. –  Mas May 15 '13 at 15:16
@Mas The "fix" you want was done all the back to Windows XP. Calling the unicode version of their API will allow you to access the "extended path". I believe explorer automatically handles this. Here is one such function that supports it - msdn.microsoft.com/en-us/library/windows/desktop/… . –  Nathan Adams Oct 16 '13 at 3:59

You can mount a folder as a drive. From the command line, if you have a path C:\path\to\long\folder you can map it to drive letter X: using:

subst x: \path\to\long\folder
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i am receiving "Invalid paramter j:" when attempting this command –  barrypicker Aug 9 '13 at 18:53
This needs to be run from an Administrator (elevated) command prompt. –  Mrchief Jun 27 '14 at 14:46
This will fail with forward slashes, needs to be backslashes. –  cchamberlain May 22 at 22:36

We just migrated to TFS, and ran into the exact same problem. In our case, our folder depth and folder names are not extremely deep or long in and of themselves. However, when coupled with the full namespace being generated as file names through Visual Studio's "Add Webservice reference" code generation, it becomes problematic using TFS.

I just put a lot of time making the case for our company to move to TFS only to find that we get this error trying to branch. Our previous source control did not have this issue, and we may end up having to move back.

Visual Studio itself is generating these long service reference files based on namespace. The underlying file system supports longer names. Having clear namespaces and folders makes it easier for people unfamiliar with the codebase to understand your product framework. The whole point of the auto generated code is to save time and money. We can't afford to go through a large codebase renaming all folders and files to something short and cryptic every time we hit this because a code generator names files like this.

Development has evolved. This needs to be addressed. Until it does, it's a huge minus for TFS, and has made it lose my recommendation over other source control systems (there are even free ones don't have this limitation).

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In the first place, Why would you even recommend a Windows product like TFS? –  Pacerier Aug 18 at 6:22

I have worked for many organizations employing deep and complex directory trees which lead to much confusion as to where a file should be placed and are subject to user abuse.

There are far better ways of managing complex project file structures and the 260 character limit should not be an issue.

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This answer can be greatly improved if you were to include solid examples of "far better ways of managing complex project file structures". –  JW Lim Jun 18 '14 at 1:01
This answer also completely ignores the fact that much of the time the depth of nesting is out of the control of the user. Having just tried to work with an existing Node project in VS, I've come a cropper on this one - the user does not have control of how the nested dependencies in Node are stored. –  IBam Jul 24 '14 at 8:18
If Microsoft products like TFS and Visual Studio start having problems with a limit from Microsoft ... it would be great to tell Microsoft the far better ways of managing complex project file structures... –  Markus Apr 15 at 18:35

One way to cope with the path limit is to shorten path entries with symbolic links.

For example:

  1. create a C:\p directory to keep short links to long paths
  2. mklink /J C:\p\foo C:\Some\Crazy\Long\Path\foo
  3. add C:\p\foo to your path instead of the long path
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Didn't have to create the directory first, so step 1 is not necessary. –  ohaal Feb 18 at 13:34

As to why this still exists - MS doesn't consider it a priority, and values backwards compatibility over advancing their OS (at least in this instance).

A workaround I use is to use the "short names" for the directories in the path, instead of their standard, human-readable versions. So e.g. for C:\Program Files\ I would use C:\PROGRA~1\ You can find the short name equivalents using dir /x.

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The question is why does the limitation still exist. Surely modern Windows can increase the side of MAX_PATH to allow longer paths. Why has the limitation not been removed?

  • The reason it cannot be removed that that Windows promised it would never change.

Through API contract, Windows has guaranteed all applications that the standard file APIs will never return a path longer than 260 characters.

Consider the following correct code:

WIN32_FIND_DATA findData;

FindFileFirst("C:\Contoso\*", ref findData);

Windows guaranteed my program that it would populate my WIN32_FIND_DATA structure:

   DWORD    dwFileAttributes;
   FILETIME ftCreationTime;
   FILETIME ftLastAccessTime;
   FILETIME ftLastWriteTime;
   TCHAR    cFileName[MAX_PATH];

My application didn't declare the value of the constant MAX_PATH, the Windows API did. My application used that defined value.

My structure is correctly defined, and only allocates 592 bytes total. That means that i am only able to receive a filename that is less than 260 characters. Windows promised me that if i wrote my application correctly, my application would continue to work in the future.

If Windows were to allow filenames longer than 260 characters then my existing application (which used the correct API correctly) would fail.

For anyone calling for Microsoft to change the MAX_PATH constant, they first need to ensure that no existing application fails. For example, i still own and use a Windows application that was written to run on Windows 3.11. It still runs on 64-bit Windows 10. That is what backwards compatibility gets you.

Microsoft did create a way to use the full 32,768 path names; but they had to create a new API contract to do it. For one, you should use the Shell API to enumerate files (as not all files exist on a hard drive or network share).

But they also have to not break existing user applications. The vast majority of applications do not use the shell api for file work. Everyone just calls FindFirstFile/FindNextFile and calls it a day.

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Could Windows not transparently translate long paths to shorter ones as a backwards-compatibility shim? I believe Windows 9x did something like that for DOS compatibility. –  Josiah Keller Aug 10 at 20:25

As to how to cope with the path size limitation on Windows - using 7zip to pack (and unpack) your path-length sensitive files seems like a viable workaround. I've used it to transport several IDE installations (those Eclipse plugin paths, yikes!) and piles of autogenerated documentation and haven't had a single problem so far.

Not really sure how it evades the 260 char limit set by Windows (from a technical PoV), but hey, it works!

More details on their SourceForge page here:

"NTFS can actually support pathnames up to 32,000 characters in length."

7-zip also support such long names.

But it's disabled in SFX code. Some users don't like long paths, since they don't understand how to work with them. That is why I have disabled it in SFX code.

and release notes:

9.32 alpha 2013-12-01

  • Improved support for file pathnames longer than 260 characters.

4.44 beta 2007-01-20

  • 7-Zip now supports file pathnames longer than 260 characters.

IMPORTANT NOTE: For this to work properly, you'll need to specify the destination path in the 7zip "Extract" dialog directly, rather than dragging & dropping the files into the intended folder. Otherwise the "Temp" folder will be used as an interim cache and you'll bounce into the same 260 char limitation once Windows Explorer starts moving the files to their "final resting place". See the replies to this question for more information.

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