The Git 2.17 changelog describes this option:

  • The machinery to clone & fetch, which in turn involves packing and unpacking objects, has been told how to omit certain objects using
    the filtering mechanism introduced by another topic. It now knows
    to mark the resulting pack as a promisor pack to tolerate missing
    objects, laying foundation for "narrow" clones.

Is this flag ready to be used, or is it most likely quite unstable? Does anyone know the right syntax to pass? Whatever flags I pass are rejected as being an invalid filter-spec. For example, these were my attempts to filter by directory:

git clone file://path --depth=1 --filter '--subdirectory-filter Assets' TestRepo
git clone file://path --depth=1 --filter --subdirectory-filter Assets TestRepo
git clone file://path --depth=1 --filter Assets TestRepo

3 Answers 3


The format for filter-spec is defined in the options section of git rev-list --help. You can also see it in the docs. Here's what it currently says:


Only useful with one of the --objects*; omits objects (usually blobs) from the list of printed objects. The <filter-spec> may be one of the following:

The form --filter=blob:none omits all blobs.

The form --filter=blob:limit=<n>[kmg] omits blobs larger than n bytes or units. n may be zero. The suffixes k, m, and g can be used to name units in KiB, MiB, or GiB. For example, blob:limit=1k is the same as blob:limit=1024.

The form --filter=sparse:oid=<blob-ish> uses a sparse-checkout specification contained in the blob (or blob-expression) <blob-ish> to omit blobs that would not be required for a sparse checkout on the requested refs.

  • 2
    Thanks! That option is less useful than I had hoped. (It can't be used to combine clone and filter-branch.)
    – piojo
    Jul 19, 2018 at 4:50
  • 4
    You want sparse checkout for that. It's described quite well here and in more detail here, with a useful example.
    – Paul Hicks
    Jul 19, 2018 at 21:39
  • 1
    By using the --filter option, Can I download only one specific directory?
    – arturn
    Apr 13, 2021 at 13:43
  • 1
    No. Filtering limits commits, not files. You can use --sparse to get only the root directory, then edit the sparse checkout file to add the directory you want. Or you can use --depth=1 to get all files but with no history, which will at least make the clone much smaller.
    – Paul Hicks
    Apr 13, 2021 at 19:47
  • @PaulHicks actually, --filter=blob:none will exclude all files from the clone and only fetch the commits, which combined with --depth=1 results in only a single object.
    – OrangeDog
    Nov 16, 2021 at 13:16

What is the git clone --filter option's syntax?

This is at least clearer with Git 2.27 (Q2 2020)

Before that, here is a quick TLDR; example of that command, combined with a (cone) sparse-checkout:

#fastest clone possible:
git clone --filter=blob:none --no-checkout https://github.com/git/git
cd git
git sparse-checkout init --cone
git read-tree -mu HEAD

That will bring back only the top folder files, excluding by default any subfolder.
The initial clone remains faster, because of the git clone --filter=blob:none --no-checkout step.

Now, onto that git clone --filter option's syntax:

See commit 4a46544 (22 Mar 2020) by Derrick Stolee (derrickstolee).
(Merged by Junio C Hamano -- gitster -- in commit fa0c1eb, 22 Apr 2020)

clone: document --filter options

Signed-off-by: Derrick Stolee

It turns out that the "--filter=<filter-spec>" option is not documented anywhere in the "git clone" page, and instead is detailed carefully in "git rev-list" where it serves a different purpose.

Add a small bit about this option in the documentation. It would be worth some time to create a subsection in the "git clone" documentation about partial clone as a concept and how it can be a surprising experience. For example, "git checkout" will likely trigger a pack download.

The git clone documentation now includes:


Use the partial clone feature and request that the server sends a subset of reachable objects according to a given object filter.

When using --filter, the supplied <filter-spec> is used for the partial clone filter.

For example, --filter=blob:none will filter out all blobs (file contents) until needed by Git.
Also, --filter=blob:limit=<size> will filter out all blobs of size at least <size>.

For more details on filter specifications, see the --filter option in git rev-list.

That option is less useful than I had hoped. (It can't be used to combine clone and filter-branch).

And yet this filtering mechanism is the extension of one associated with clone, for implementing the partial cloning (or narrow clone) introduced in Dec. 2017 with Git 2.16.

But your Git repo hosting server must support the protocol v2, supported for now (Oct. 2018) only by GitLab.

Meaning you can use --filter with git clone, as a recent Git 2.20 patch illustrates (see below).

That filter was then added to git fetch in this patch series.
It is part of a new pack-protocol capability "filter", added to the fetch-pack and upload-pack negotiation.
See "filter" in Documentation/technical/pack-protocol, which refers to the rev-list options.

With Git 2.20 (Q4 2018), a partial clone that is configured to lazily fetch missing objects will on-demand issue a "git fetch" request to the originating repository to fill not-yet-obtained objects.
The request has been optimized for requesting a tree object (and not the leaf blob objects contained in it) by telling the originating repository that no blobs are needed.

See commit 4c7f956, commit 12f19a9 (03 Oct 2018) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit fa54ccc, 19 Oct 2018)

fetch-pack: exclude blobs when lazy-fetching trees

A partial clone with missing trees can be obtained using "git clone --filter=tree:none <repo>".
In such a repository, when a tree needs to be lazily fetched, any tree or blob it directly or indirectly references is fetched as well, regardless of whether the original command required those objects, or if the local repository already had some of them.

This is because the fetch protocol, which the lazy fetch uses, does not allow clients to request that only the wanted objects be sent, which would be the ideal solution. This patch implements a partial solution: specify the "blob:none" filter, somewhat reducing the fetch payload.

This change has no effect when lazily fetching blobs (due to how filters work). And if lazily fetching a commit (such repositories are difficult to construct and is not a use case we support very well, but it is possible), referenced commits and trees are still fetched - only the blobs are not fetched.

You can see further optimization with:

See commit e70a303, commit 6ab4055, commit 0177565, commit 99bcb88 (27 Sep 2018) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit 0527fba, 19 Oct 2018)

transport: allow skipping of ref listing

The get_refs_via_connect() function both performs the handshake (including determining the protocol version) and obtaining the list of remote refs.

However, the fetch protocol v2 supports fetching objects without the listing of refs, so make it possible for the user to skip the listing by creating a new handshake() function.

Note the syntax has changed/evolved with Git 2.21 (Q1 2019) and its update of the protocol message specification to allow only the limited use of scaled quantities.
This is ensure potential compatibility issues will not go out of hand.

See commit 87c2d9d (08 Jan 2019) by Josh Steadmon (steadmon).
See commit 8272f26, commit c813a7c (09 Jan 2019) by Matthew DeVore (matvore).
(Merged by Junio C Hamano -- gitster -- in commit 073312b, 05 Feb 2019)

filter-options: expand scaled numbers

When communicating with a remote server or a subprocess, use expanded numbers rather than numbers with scaling suffix in the object filter spec (e.g. "limit:blob=1k" becomes "limit:blob=1024").

Update the protocol docs to note that clients should always perform this expansion, to allow for more compatibility between server implementations.

As an aside, Git 2.23 (Q3 2019) consider the "invalid filter-spec" message is user-facing and not a BUG, so it makes localizeable.

See commit 5c03bc8 (31 May 2019) by Matthew DeVore (matvore).
(Merged by Junio C Hamano -- gitster -- in commit ca02d36, 21 Jun 2019)

list-objects-filter-options: error is localizeable

The "invalid filter-spec" message is user-facing and not a BUG, so make it localizeable.

For reference, the message appears in this context:

$ git rev-list --filter=blob:nonse --objects HEAD
fatal: invalid filter-spec 'blob:nonse'

With Git 2.24 (Q4 2019), the http transport, which lacked some optimization the native transports learned to avoid unnecessary ref advertisement, has been fixed.

See commit fddf2eb, commit ac3fda8 (21 Aug 2019) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit f67bf53, 18 Sep 2019)

transport-helper: skip ls-refs if unnecessary

Commit e70a303 ("fetch: do not list refs if fetching only hashes", 2018-10-07, Git v2.20.0-rc0) and its ancestors taught Git, as an optimization, to skip the ls-refs step when it is not necessary during a protocol v2 fetch (for example, when lazy fetching a missing object in a partial clone, or when running "git fetch --no-tags <remote> <SHA-1>").
But that was only done for natively supported protocols; in particular, HTTP was not supported.

Teach Git to skip ls-refs when using remote helpers that support connect or stateless-connect.

Another optimization in Git 2.24 (Q4 2019)

See commit d8bc1a5 (08 Oct 2019) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit c7d2ced, 15 Oct 2019)

send-pack: never fetch when checking exclusions

Signed-off-by: Jonathan Tan

When building the packfile to be sent, send_pack() is given a list of remote refs to be used as exclusions.
For each ref, it first checks if the ref exists locally, and if it does, passes it with a "^" prefix to pack-objects.
However, in a partial clone, the check may trigger a lazy fetch.

The additional commit ancestry information obtained during such fetches may show that certain objects that would have been sent are already known to the server, resulting in a smaller pack being sent.
But this is at the cost of fetching from many possibly unrelated refs, and the lazy fetches do not help at all in the typical case where the client is up-to-date with the upstream of the branch being pushed.

Ensure that these lazy fetches do not occur.

Finally, Git 2.24 (Q4 2019) includes a last-minute work-around for a lazy fetch glitch, which illustrates one usage of the filter syntax.

See commit c7aadcc (23 Oct 2019) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit c32ca69, 04 Nov 2019)

fetch: delay fetch_if_missing=0 until after config

Signed-off-by: Jonathan Tan

Suppose, from a repository that has ".gitmodules", we clone with --filter=blob:none:

git clone --filter=blob:none --no-checkout \

Then we fetch:

git -C git fetch

This will cause a "unable to load config blob object", because the fetch_config_from_gitmodules() invocation in cmd_fetch() will attempt to load ".gitmodules" (which Git knows to exist because the client has the tree of HEAD) while fetch_if_missing is set to 0.

fetch_if_missing is set to 0 too early - ".gitmodules" here should be lazily fetched.

Git must set fetch_if_missing to 0 before the fetch because as part of the fetch, packfile negotiation happens (and we do not want to fetch any missing objects when checking existence of objects), but we do not need to set it so early.
Move the setting of fetch_if_missing to the earliest possible point in cmd_fetch(), right before any fetching happens.

With Git 2.25 (Q1 2020), debugging support for lazy cloning has been a bit improved.
git fetch v2 now makes good use of promisor files.

See commit 5374a29 (15 Oct 2019) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit 026587c, 10 Nov 2019)

fetch-pack: write fetched refs to .promisor

Signed-off-by: Jonathan Tan
Acked-by: Josh Steadmon

The specification of promisor packfiles (in partial-clone.txt) states that the .promisor files that accompany packfiles do not matter (just like .keep files), so whenever a packfile is fetched from the promisor remote, Git has been writing empty .promisor files.
But these files could contain more useful information.

So instead of writing empty files, write the refs fetched to these files.

This makes it easier to debug issues with partial clones, as we can identify what refs (and their associated hashes) were fetched at the time the packfile was downloaded, and if necessary, compare those hashes against what the promisor remote reports now.

This is implemented by teaching fetch-pack to write its own non-empty .promisor file whenever it knows the name of the pack's lockfile.
This covers the case wherein the user runs "git fetch" with an internal protocol or HTTP protocol v2 (fetch_refs_via_pack() in transport.c sets lock_pack) and with HTTP protocol v0/v1 (fetch_git() in remote-curl.c passes "--lock-pack" to "fetch-pack").

Before Git 2.29 (Q4 2020), fetching from a lazily cloned repository resulted at the server side in attempts to lazy fetch objects that the client side has, many of which will not be available from the third-party anyway.

See commit 77aa094 (16 Jul 2020) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit 37f382a, 30 Jul 2020)

upload-pack: do not lazy-fetch "have" objects

Signed-off-by: Jonathan Tan

When upload-pack receives a request containing "have" hashes, it (among other things) checks if the served repository has the corresponding objects. However, it does not do so with the OBJECT_INFO_SKIP_FETCH_OBJECT flag, so if serving a partial clone, a lazy fetch will be triggered first.

This was discovered at $DAYJOB when a user fetched from a partial clone (into another partial clone - although this would also happen if the repo to be fetched into is not a partial clone).

Therefore, whenever "have" hashes are checked for existence, pass the OBJECT_INFO_SKIP_FETCH_OBJECT flag.
Also add the OBJECT_INFO_QUICK flag to improve performance, as it is typical that such objects do not exist in the serving repo, and the consequences of a false negative are minor (usually, a slightly larger pack sent).

With Git 2.29 (Q4 2020), the component to respond to "git fetch"(man) request is made more configurable to selectively allow or reject object filtering specification used for partial cloning.

See commit 6cc275e (05 Aug 2020) by Jeff King (peff).
See commit 5b01a4e, commit 6dd3456 (03 Aug 2020), and commit b9ea214 (31 Jul 2020) by Taylor Blau (ttaylorr).
(Merged by Junio C Hamano -- gitster -- in commit 73a9255, 11 Aug 2020)

upload-pack.c: allow banning certain object filter(s)

Helped-by: Jeff King
Signed-off-by: Taylor Blau

Git clients may ask the server for a partial set of objects, where the set of objects being requested is refined by one or more object filters. Server administrators can configure 'git upload-pack(man) ' to allow or ban these filters by setting the 'uploadpack.allowFilter' variable to 'true' or 'false', respectively.

However, administrators using bitmaps may wish to allow certain kinds of object filters, but ban others. Specifically, they may wish to allow object filters that can be optimized by the use of bitmaps, while rejecting other object filters which aren't and represent a perceived performance degradation (as well as an increased load factor on the server).

Allow configuring 'git upload-pack(man) ' to support object filters on a case-by-case basis by introducing two new configuration variables:

  • 'uploadpackfilter.allow'
  • 'uploadpackfilter.<kind>.allow'

where '' may be one of 'blobNone', 'blobLimit', 'tree', and so on.

Setting the second configuration variable for any valid value of '<kind>' explicitly allows or disallows restricting that kind of object filter.

If a client requests the object filter <kind> and the respective configuration value is not set, 'git upload-pack(man) ' will default to the value of 'uploadpackfilter.allow', which itself defaults to 'true' to maintain backwards compatibility.
Note that this differs from 'uploadpack.allowfilter', which controls whether or not the 'filter' capability is advertised.

git config now includes in its man page:


Provides a default value for unspecified object filters (see: the below configuration variable).
Defaults to true.


Explicitly allow or ban the object filter corresponding to <filter>, where <filter> may be one of: blob:none, blob:limit, tree, sparse:oid, or combine.
If using combined filters, both combine and all of the nested filter kinds must be allowed.
Defaults to uploadpackfilter.allow.

With Git 2.30 (Q1 2021), Fix potential server side resource deallocation issues when responding to a partial clone request.

See commit 8d133f5, commit aab179d (03 Dec 2020) by Taylor Blau (ttaylorr).
(Merged by Junio C Hamano -- gitster -- in commit 21127fa, 17 Dec 2020)

upload-pack.c: don't free allowed_filters util pointers

Signed-off-by: Taylor Blau

To keep track of which object filters are allowed or not, 'git upload-pack'(man) stores the name of each filter in a string_list, and sets it ->util pointer to be either 0 or 1, indicating whether it is banned or allowed.

Later on, we attempt to clear that list, but we incorrectly ask for the util pointers to be free()'d, too. This behavior (introduced back in 6dd3456a8c ("[upload-pack.c](https://github.com/git/git/blob/8d133f500a5390a089988141cdec8154a732764d/upload-pack.c): allow banning certain object filter(s)", 2020-08-03, Git v2.29.0-rc0 -- merge listed in batch #6)) leads to an invalid free, and causes us to crash.

In order to trigger this, one needs to fetch from a server that
(a) has at least one object filter allowed, and
(b) issue a fetch that contains a subset of the allowed filters (i.e., we cannot ask for a banned filter, since this causes us to die() before we hit the bogus string_list_clear()).

In that case, whatever banned filters exist will cause a noop free() (since those ->util pointers are set to 0), but the first allowed filter we try to free will crash us.

We never noticed this in the tests because we didn't have an example of setting 'uploadPackFilter' configuration variables and then following up with a valid fetch. The first new 'git clone'(man) prevents further regression here. For good measure on top, add a test which checks the same behavior at a tree depth greater than 0.

A recent "git clone"(man) fix left a temporary directory behind when the transport layer returned an failure.
That has been corrected with Git 2.33 (Q3 2021).

See commit 6aacb7d (19 May 2021) by Jeff King (peff).
(Merged by Junio C Hamano -- gitster -- in commit f4f7304, 14 Jun 2021)

clone: clean up directory after transport_fetch_refs() failure

Signed-off-by: Jeff King

git-clone(man) started respecting errors from the transport subsystem in aab179d ("builtin/clone.c: don't ignore transport_fetch_refs() errors", 2020-12-03, Git v2.30.0-rc1 -- merge).
However, that commit didn't handle the cleanup of the filesystem quite right.

The cleanup of the directory that cmd_clone() creates is done by an atexit() handler, which we control with a flag.
It starts as JUNK_LEAVE_NONE ("clean up everything"), then progresses to JUNK_LEAVE_REPO when we know we have a valid repo but not working tree, and then finally JUNK_LEAVE_ALL when we have a successful checkout.

  • 10
    This answer is so verbose as to be depleted of any value except to serve as a use case for character limitations. Mar 22, 2021 at 22:45
  • 1
    I appreciated the thoroughness of this answer.
    – qneill
    Jun 10, 2022 at 0:19

git clone --filter: submodule edition.

(see my previous answer for the regular repository git clone --filter)

The notion of partial clone for submodule (sparse checkout) has started to come along:

With Git 2.29 (Q4 2020), this lazy/partial clone --filter works even with a submodule, when transfer.fsckobjects is set.

See commit 1b03df5 (20 Aug 2020) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit 63728e4, 31 Aug 2020)

fetch-pack: in partial clone, pass --promisor

Signed-off-by: Jonathan Tan

When fetching a pack from a promisor remote, the corresponding .promisor file needs to be created.
"fetch-pack" originally did this by passing "--promisor" to "index-pack", but in 5374a290aa ("fetch-pack: write fetched refs to .promisor", 2019-10-16, Git v2.25.0-rc0 -- merge listed in batch #1), "fetch-pack" was taught to do this itself instead, because it needed to store ref information in the .promisor file.

This causes a problem with superprojects when transfer.fsckobjects is set, because in the current implementation, it is "index-pack" that calls fsck_finish() to check the objects; before 5374a290aa, fsck_finish() would see that .gitmodules is a promisor object and tolerate it being missing, but after, there is no .promisor file (at the time of the invocation of fsck_finish() by "index-pack") to tell it that .gitmodules is a promisor object, so it returns an error.

Therefore, teach "fetch-pack" to pass "--promisor" to index pack once again.
"fetch-pack" will subsequently overwrite this file with the ref information.

An alternative is to instead move object checking to "fetch-pack", and let "index-pack" only index the files.
However, since "index-pack" has to inflate objects in order to index them, it seems reasonable to also let it check the objects (which also require inflated files).


Partial clone allows us to avoid downloading such unneeded objects in advance during clone and fetch operations and thereby reduce download times and disk usage.
Missing objects can later be "demand fetched" if/when needed.

A remote that can later provide the missing objects is called a promisor remote, as it promises to send the objects when requested.
Initially Git supported only one promisor remote, the origin remote from which the user cloned and that was configured in the "extensions.partialClone" config option.
Later support for more than one promisor remote has been implemented.

Use of partial clone requires that the user be online and the origin remote or other promisor remotes be available for on-demand fetching of missing objects.
This may or may not be problematic for the user.

For example, if the user can stay within the pre-selected subset of the source tree, they may not encounter any missing objects.

Alternatively, the user could try to pre-fetch various objects if they know that they are going offline.

With Git 2.33 (Q3 2021), prepare the internals for lazily fetching objects in submodules from their promisor remotes.

See commit ef830cc, commit d1fa943, commit 69bb2e1, commit ef7dc2e, commit ebaf3bc (17 Jun 2021) by Jonathan Tan (jhowtan).
(Merged by Junio C Hamano -- gitster -- in commit 8721e2e, 16 Jul 2021)

promisor-remote: teach lazy-fetch in any repo

Signed-off-by: Jonathan Tan
Reviewed-by: Elijah Newren

This is one step towards supporting partial clone submodules.

Even after this patch, we will still lack partial clone submodules support, primarily because a lot of Git code that accesses submodule objects does so by adding their object stores as alternates, meaning that any lazy fetches that would occur in the submodule would be done based on the config of the superproject, not of the submodule.
This also prevents testing of the functionality in this patch by user-facing commands.

With Git 2.36 (Q2 2022), "git clone --filter=... --recurse-submodules"(man)" only makes the top-level a partial clone, while submodules are fully cloned.
This behaviour is changed to pass the same filter down to the submodules.

See commit f05da2b (04 Feb 2022) by Josh Steadmon (steadmon).
(Merged by Junio C Hamano -- gitster -- in commit 2e65591, 25 Feb 2022)

clone, submodule: pass partial clone filters to submodules

Signed-off-by: Josh Steadmon

When cloning a repo with a --filter and with --recurse-submodules enabled, the partial clone filter only applies to the top-level repo.
This can lead to unexpected bandwidth and disk usage for projects which include large submodules.

For example, a user might wish to make a partial clone of Gerrit and would run: git clone --recurse-submodules --filter=blob:5k https://gerrit.googlesource.com/gerrit(man).

However, only the superproject would be a partial clone; all the submodules would have all blobs downloaded regardless of their size.
With this change, the same filter can also be applied to submodules, meaning the expected bandwidth and disk savings apply consistently.

To avoid changing default behavior, add a new clone flag, --also-filter-submodules.
When this is set along with --filter and --recurse-submodules, the filter spec is passed along to git-submodule(man) and git-submodule--helper, such that submodule clones also have the filter applied.

This applies the same filter to the superproject and all submodules.
Users who need to customize the filter per-submodule would need to clone with --no-recurse-submodules and then manually initialize each submodule with the proper filter.

Applying filters to submodules should be safe thanks to Jonathan Tan's recent work [a, b, c] eliminating the use of alternates as a method of accessing submodule objects, so any submodule object access now triggers a lazy fetch from the submodule's promisor remote if the accessed object is missing.
This patch is a reworked version of [d], which was created prior to Jonathan Tan's work.

git config now includes in its man page:


If a partial clone filter is provided (see --filter in git rev-list) and --recurse-submodules is used, also apply the filter to submodules.

git clone now includes in its man page:

[--filter=<filter> [--also-filter-submodules]] [--] <repository>

git clone now includes in its man page:


Also apply the partial clone filter to any submodules in the repository. Requires --filter and --recurse-submodules.
This can be turned on by default by setting the clone.filterSubmodules config option.

git submodule now includes in its man page:

If --filter <filter spec> is specified, the given partial clone filter will be applied to the submodule.

See git rev-list for details on filter specifications.

With Git 2.37 (Q3 2022), "git remote -v"(man) now shows the list-objects-filter used during fetching from the remote, if available.

See commit ef6d15c (09 May 2022) by Abhradeep Chakraborty (Abhra303).
(Merged by Junio C Hamano -- gitster -- in commit 2785b71, 26 May 2022)

builtin/remote.c: teach -v to list filters for promisor remotes

git remote -v(man) (--verbose) lists down the names of remotes along with their URLs.
It would be beneficial for users to also specify the filter types for promisor remotes.
Something like this -

origin    remote-url (fetch) [blob:none]
origin    remote-url (push)

Teach git remote -v to also specify the filters for promisor remotes.

Closes: https://github.com/gitgitgadget/git/issues/1211 Signed-off-by: Abhradeep Chakraborty [email protected] Signed-off-by: Junio C Hamano [email protected]

git remote now includes in its man page:

For promisor remotes, also show which filter (blob:none etc.) are configured.


git clone --filter=blob:none "file://$(pwd)/srv.bare"
git remote -v
    srv.bare (fetch) [blob:none]

git -C pc config remote.origin.partialCloneFilter object:type=commit
git -C pc remote -v
    srv.bare (fetch) [object:type=commit]

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