What does the key parameter do under the hood?

LaminDB is designed around associating biological metadata to artifacts and collections. This enables querying for them in storage by metadata and removes the requirement for semantic artifact and collection names.

Here, we will discuss trade-offs for using the key parameter, which allows for semantic keys, in various scenarios.

We’re simulating an artifact system with several nested folders and artifacts. Such structures are resembled in, for example, the RxRx: cell imaging guide.

# !pip install 'lamindb[jupyter]'
import random
import string
from pathlib import Path


def create_complex_biological_hierarchy(root_folder):
    root_path = Path(root_folder)

    if root_path.exists():
        print("Folder structure already exists. Skipping...")
    else:
        root_path.mkdir()

        raw_folder = root_path / "raw"
        preprocessed_folder = root_path / "preprocessed"
        raw_folder.mkdir()
        preprocessed_folder.mkdir()

        for i in range(1, 5):
            artifact_name = f"raw_data_{i}.txt"
            with (raw_folder / artifact_name).open("w") as f:
                random_text = "".join(
                    random.choice(string.ascii_letters) for _ in range(10)
                )
                f.write(random_text)

        for i in range(1, 3):
            collection_folder = raw_folder / f"Collection_{i}"
            collection_folder.mkdir()

            for j in range(1, 5):
                artifact_name = f"raw_data_{j}.txt"
                with (collection_folder / artifact_name).open("w") as f:
                    random_text = "".join(
                        random.choice(string.ascii_letters) for _ in range(10)
                    )
                    f.write(random_text)

        for i in range(1, 5):
            artifact_name = f"result_{i}.txt"
            with (preprocessed_folder / artifact_name).open("w") as f:
                random_text = "".join(
                    random.choice(string.ascii_letters) for _ in range(10)
                )
                f.write(random_text)


root_folder = "complex_biological_project"
create_complex_biological_hierarchy(root_folder)
!lamin init --storage ./key-eval
→ connected lamindb: testuser1/key-eval
import lamindb as ln


ln.settings.verbosity = "hint"
→ connected lamindb: testuser1/key-eval
ln.UPath("complex_biological_project").view_tree()
4 sub-directories & 8 files with suffixes '.txt'
/home/runner/work/lamindb/lamindb/docs/faq/complex_biological_project
├── raw/
│   ├── Collection_1/
│   ├── raw_data_4.txt
│   ├── Collection_2/
│   ├── raw_data_3.txt
│   ├── raw_data_1.txt
│   └── raw_data_2.txt
└── preprocessed/
    ├── result_2.txt
    ├── result_4.txt
    ├── result_3.txt
    └── result_1.txt
ln.track("WIwaNDvlEkwS0000")
→ notebook imports: lamindb==0.76.14
• tracked pip freeze > /home/runner/.cache/lamindb/run_env_pip_Naitc0js8FRG7921eMqw.txt
→ created Transform('WIwaNDvl'), started new Run('Naitc0js') at 2024-10-20 16:21:09 UTC

Storing artifacts using Storage, File, and Collection

Lamin has three storage classes that manage different types of in-memory and on-disk objects:

  1. Storage: Manages the default storage root that can be either local or in the cloud. For more details we refer to Storage FAQ.

  2. Artifact: Manages datasets with an optional key that acts as a relative path within the current default storage root (see Storage). An example is a single h5 artifact.

  3. Collection: Manages a collection of datasets with an optional key that acts as a relative path within the current default storage root (see Storage). An example is a collection of h5 artifacts.

For more details we refer to Tutorial: Artifacts.

The current storage root is:

ln.settings.storage
StorageSettings(root='/home/runner/work/lamindb/lamindb/docs/faq/key-eval', uid='w8Wap1m9LSHg')

By default, Lamin uses virtual keys that are only reflected in the database but not in storage. It is possible to turn this behavior off by setting ln.settings.creation._artifact_use_virtual_keys = False. Generally, we discourage disabling this setting manually. For more details we refer to Storage FAQ.

ln.settings.creation._artifact_use_virtual_keys
True

We will now create File objects with and without semantic keys using key and also save them as Collections.

artifact_no_key_1 = ln.Artifact("complex_biological_project/raw/raw_data_1.txt")
artifact_no_key_2 = ln.Artifact("complex_biological_project/raw/raw_data_2.txt")
• path content will be copied to default storage upon `save()` with key `None` ('.lamindb/6N5cXEHQZ0vGBo4f0000.txt')
• path content will be copied to default storage upon `save()` with key `None` ('.lamindb/D49JKZO4nLvCeMdB0000.txt')

The logging suggests that the artifacts will be saved to our current default storage with auto generated storage keys.

artifact_no_key_1.save()
artifact_no_key_2.save()
✓ storing artifact '6N5cXEHQZ0vGBo4f0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/6N5cXEHQZ0vGBo4f0000.txt'
✓ storing artifact 'D49JKZO4nLvCeMdB0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/D49JKZO4nLvCeMdB0000.txt'
Artifact(uid='D49JKZO4nLvCeMdB0000', is_latest=True, suffix='.txt', size=10, hash='pKV5QlCzsYZ3UTirdBfraA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
artifact_key_3 = ln.Artifact(
    "complex_biological_project/raw/raw_data_3.txt", key="raw/raw_data_3.txt"
)
artifact_key_4 = ln.Artifact(
    "complex_biological_project/raw/raw_data_4.txt", key="raw/raw_data_4.txt"
)
artifact_key_3.save()
artifact_key_4.save()
• path content will be copied to default storage upon `save()` with key 'raw/raw_data_3.txt'
• path content will be copied to default storage upon `save()` with key 'raw/raw_data_4.txt'
✓ storing artifact '2PT0zTA0y5GaFErU0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/2PT0zTA0y5GaFErU0000.txt'
✓ storing artifact 'rT9pcrtEIczkatAU0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/rT9pcrtEIczkatAU0000.txt'
Artifact(uid='rT9pcrtEIczkatAU0000', is_latest=True, key='raw/raw_data_4.txt', suffix='.txt', size=10, hash='6POyWDhw94pOsBDj7XkIsA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)

Files with keys are not stored in different locations because of the usage of virtual keys. However, they are still semantically queryable by key.

ln.Artifact.filter(key__contains="raw").df().head()
uid version is_latest description key suffix type size hash n_objects n_observations _hash_type _accessor visibility _key_is_virtual storage_id transform_id run_id created_at created_by_id
id
3 2PT0zTA0y5GaFErU0000 None True None raw/raw_data_3.txt .txt None 10 TdQzsC37mpUFzLcIjnx51Q None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.409865+00:00 1
4 rT9pcrtEIczkatAU0000 None True None raw/raw_data_4.txt .txt None 10 6POyWDhw94pOsBDj7XkIsA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.415035+00:00 1

Collection does not have a key parameter because it does not store any additional data in Storage. In contrast, it has a name parameter that serves as a semantic identifier of the collection.

ds_1 = ln.Collection([artifact_no_key_1, artifact_no_key_2], name="no key collection")
ds_2 = ln.Collection([artifact_key_3, artifact_key_4], name="sample collection")
ds_1
Collection(uid='nvmSA6W2N69Nw6un0000', is_latest=True, name='no key collection', hash='k5Ct_k3B28qNYPVz4sBvdg', visibility=1, created_by_id=1, transform_id=1, run_id=1)

Advantages and disadvantages of semantic keys

Semantic keys have several advantages and disadvantages that we will discuss and demonstrate in the remaining notebook:

Advantages:

  • Simple: It can be easier to refer to specific collections in conversations

  • Familiarity: Most people are familiar with the concept of semantic names

Disadvantages

  • Length: Semantic names can be long with limited aesthetic appeal

  • Inconsistency: Lack of naming conventions can lead to confusion

  • Limited metadata: Semantic keys can contain some, but usually not all metadata

  • Inefficiency: Writing lengthy semantic names is a repetitive process and can be time-consuming

  • Ambiguity: Overly descriptive artifact names may introduce ambiguity and redundancy

  • Clashes: Several people may attempt to use the same semantic key. They are not unique

Renaming artifacts

Renaming Files that have associated keys can be done on several levels.

In storage

A artifact can be locally moved or renamed:

artifact_key_3.path
PosixUPath('/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/2PT0zTA0y5GaFErU0000.txt')
loaded_artifact = artifact_key_3.load()
!mkdir complex_biological_project/moved_artifacts
!mv complex_biological_project/raw/raw_data_3.txt complex_biological_project/moved_artifacts
artifact_key_3.path
PosixUPath('/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/2PT0zTA0y5GaFErU0000.txt')

After moving the artifact locally, the storage location (the path) has not changed and the artifact can still be loaded.

artifact_3 = artifact_key_3.load()

The same applies to the key which has not changed.

artifact_key_3.key
'raw/raw_data_3.txt'

By key

Besides moving the artifact in storage, the key can also be renamed.

artifact_key_4.key
'raw/raw_data_4.txt'
artifact_key_4.key = "bad_samples/sample_data_4.txt"
artifact_key_4.key
'bad_samples/sample_data_4.txt'

Due to the usage of virtual keys, modifying the key does not change the storage location and the artifact stays accessible.

artifact_key_4.path
PosixUPath('/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/rT9pcrtEIczkatAU0000.txt')
artifact_4 = artifact_key_4.load()

Modifying the path attribute

However, modifying the path directly is not allowed:

try:
    artifact_key_4.path = f"{ln.settings.storage}/here_now/sample_data_4.txt"
except AttributeError as e:
    print(e)
property of 'Artifact' object has no setter

Clashing semantic keys

Semantic keys should not clash. Let’s attempt to use the same semantic key twice

print(artifact_key_3.key)
print(artifact_key_4.key)
raw/raw_data_3.txt
bad_samples/sample_data_4.txt
artifact_key_4.key = "raw/raw_data_3.txt"
print(artifact_key_3.key)
print(artifact_key_4.key)
raw/raw_data_3.txt
raw/raw_data_3.txt

When filtering for this semantic key it is now unclear to which artifact we were referring to:

ln.Artifact.filter(key__icontains="sample_data_3").df()
! No records found
uid version is_latest description key suffix type size hash n_objects n_observations _hash_type _accessor visibility _key_is_virtual storage_id transform_id run_id created_at created_by_id
id

When querying by key LaminDB cannot resolve which artifact we actually wanted. In fact, we only get a single hit which does not paint a complete picture.

print(artifact_key_3.uid)
print(artifact_key_4.uid)
2PT0zTA0y5GaFErU0000
rT9pcrtEIczkatAU0000

Both artifacts still exist though with unique uids that can be used to get access to them. Most importantly though, saving these artifacts to the database will result in an IntegrityError to prevent this issue.

try:
    artifact_key_3.save()
    artifact_key_4.save()
except Exception as e:
    print(
        "It is not possible to save artifacts to the same key. This results in an"
        " Integrity Error!"
    )

We refer to What happens if I save the same artifacts & records twice? for more detailed explanations of behavior when attempting to save artifacts multiple times.

Hierarchies

Another common use-case of keys are artifact hierarchies. It can be useful to resemble the artifact structure in “complex_biological_project” from above also in LaminDB to allow for queries for artifacts that were stored in specific folders. Common examples of this are folders specifying different processing stages such as raw, preprocessed, or curated.

Note that this use-case may also be overlapping with Collection which also allows for grouping Files. However, Collection cannot model hierarchical groupings.

Key

import os

for root, _, artifacts in os.walk("complex_biological_project/raw"):
    for artifactname in artifacts:
        file_path = os.path.join(root, artifactname)
        key_path = file_path.removeprefix("complex_biological_project")
        ln_artifact = ln.Artifact(file_path, key=key_path)
        ln_artifact.save()
→ returning existing artifact with same hash: Artifact(uid='rT9pcrtEIczkatAU0000', is_latest=True, key='raw/raw_data_3.txt', suffix='.txt', size=10, hash='6POyWDhw94pOsBDj7XkIsA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
! key raw/raw_data_3.txt on existing artifact differs from passed key /raw/raw_data_4.txt
→ returning existing artifact with same hash: Artifact(uid='6N5cXEHQZ0vGBo4f0000', is_latest=True, suffix='.txt', size=10, hash='MpJ0MPbV58X0avDDMezt-A', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
! key None on existing artifact differs from passed key /raw/raw_data_1.txt
→ returning existing artifact with same hash: Artifact(uid='D49JKZO4nLvCeMdB0000', is_latest=True, suffix='.txt', size=10, hash='pKV5QlCzsYZ3UTirdBfraA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
! key None on existing artifact differs from passed key /raw/raw_data_2.txt
• path content will be copied to default storage upon `save()` with key '/raw/Collection_1/raw_data_4.txt'
✓ storing artifact 'Am1Jt9QzEh05S88B0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/Am1Jt9QzEh05S88B0000.txt'
• path content will be copied to default storage upon `save()` with key '/raw/Collection_1/raw_data_3.txt'
✓ storing artifact 'xYmZgC8Ph25rpUaA0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/xYmZgC8Ph25rpUaA0000.txt'
• path content will be copied to default storage upon `save()` with key '/raw/Collection_1/raw_data_1.txt'
✓ storing artifact 'QPDKutmlwodhSJ1E0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/QPDKutmlwodhSJ1E0000.txt'
• path content will be copied to default storage upon `save()` with key '/raw/Collection_1/raw_data_2.txt'
✓ storing artifact 'OGMr1f9TZDb1e2Xm0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/OGMr1f9TZDb1e2Xm0000.txt'
• path content will be copied to default storage upon `save()` with key '/raw/Collection_2/raw_data_4.txt'
✓ storing artifact 'Ss3w7gqx6Q8GAUYK0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/Ss3w7gqx6Q8GAUYK0000.txt'
• path content will be copied to default storage upon `save()` with key '/raw/Collection_2/raw_data_3.txt'
✓ storing artifact '2fQFDJjKm44eQ8tN0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/2fQFDJjKm44eQ8tN0000.txt'
• path content will be copied to default storage upon `save()` with key '/raw/Collection_2/raw_data_1.txt'
✓ storing artifact 'gneU7eP8SE4Kmg9t0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/gneU7eP8SE4Kmg9t0000.txt'
• path content will be copied to default storage upon `save()` with key '/raw/Collection_2/raw_data_2.txt'
✓ storing artifact 'NPwhT0dSJoWFpv9j0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/NPwhT0dSJoWFpv9j0000.txt'
ln.Artifact.filter(key__startswith="raw").df()
uid version is_latest description key suffix type size hash n_objects n_observations _hash_type _accessor visibility _key_is_virtual storage_id transform_id run_id created_at created_by_id
id
3 2PT0zTA0y5GaFErU0000 None True None raw/raw_data_3.txt .txt None 10 TdQzsC37mpUFzLcIjnx51Q None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.409865+00:00 1
4 rT9pcrtEIczkatAU0000 None True None raw/raw_data_3.txt .txt None 10 6POyWDhw94pOsBDj7XkIsA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.415035+00:00 1

Collection

Alternatively, it would have been possible to create a Collection with a corresponding name:

all_data_paths = []
for root, _, artifacts in os.walk("complex_biological_project/raw"):
    for artifactname in artifacts:
        file_path = os.path.join(root, artifactname)
        all_data_paths.append(file_path)

all_data_artifacts = []
for path in all_data_paths:
    all_data_artifacts.append(ln.Artifact(path))

data_ds = ln.Collection(all_data_artifacts, name="data")
data_ds.save()
→ returning existing artifact with same hash: Artifact(uid='rT9pcrtEIczkatAU0000', is_latest=True, key='raw/raw_data_3.txt', suffix='.txt', size=10, hash='6POyWDhw94pOsBDj7XkIsA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='6N5cXEHQZ0vGBo4f0000', is_latest=True, suffix='.txt', size=10, hash='MpJ0MPbV58X0avDDMezt-A', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='D49JKZO4nLvCeMdB0000', is_latest=True, suffix='.txt', size=10, hash='pKV5QlCzsYZ3UTirdBfraA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='Am1Jt9QzEh05S88B0000', is_latest=True, key='/raw/Collection_1/raw_data_4.txt', suffix='.txt', size=10, hash='0QpqeUre24vCLVdiBXTNYw', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='xYmZgC8Ph25rpUaA0000', is_latest=True, key='/raw/Collection_1/raw_data_3.txt', suffix='.txt', size=10, hash='q4h9N3D15OdUWA6gYzaqWg', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='QPDKutmlwodhSJ1E0000', is_latest=True, key='/raw/Collection_1/raw_data_1.txt', suffix='.txt', size=10, hash='xc9b7BmckncSEqxImp_YpQ', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='OGMr1f9TZDb1e2Xm0000', is_latest=True, key='/raw/Collection_1/raw_data_2.txt', suffix='.txt', size=10, hash='jkPt4xJbIRoF54boEv758g', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='Ss3w7gqx6Q8GAUYK0000', is_latest=True, key='/raw/Collection_2/raw_data_4.txt', suffix='.txt', size=10, hash='5nejapJBx-UIlvMV7cLPvA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='2fQFDJjKm44eQ8tN0000', is_latest=True, key='/raw/Collection_2/raw_data_3.txt', suffix='.txt', size=10, hash='CE0Zgomv3uKBZ7nYkvTiGg', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='gneU7eP8SE4Kmg9t0000', is_latest=True, key='/raw/Collection_2/raw_data_1.txt', suffix='.txt', size=10, hash='j4HksONF7BMVvQlCsOcf-Q', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing artifact with same hash: Artifact(uid='NPwhT0dSJoWFpv9j0000', is_latest=True, key='/raw/Collection_2/raw_data_2.txt', suffix='.txt', size=10, hash='m1zTR9v_KFOm4h5qlM-2YA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
Collection(uid='iZMrzTjErFGSGZOa0000', is_latest=True, name='data', hash='yaBZD44DnPG_0gJe6Yfkuw', visibility=1, created_by_id=1, transform_id=1, run_id=1, created_at=2024-10-20 16:21:11 UTC)
ln.Collection.filter(name__icontains="data").df()
uid version is_latest name description hash reference reference_type visibility transform_id meta_artifact_id run_id created_at created_by_id
id
1 iZMrzTjErFGSGZOa0000 None True data None yaBZD44DnPG_0gJe6Yfkuw None None 1 1 None 1 2024-10-20 16:21:11.028812+00:00 1

This approach will likely lead to clashes. Alternatively, Ulabels can be added to Files to resemble hierarchies.

Ulabels

for root, _, artifacts in os.walk("complex_biological_project/raw"):
    for artifactname in artifacts:
        file_path = os.path.join(root, artifactname)
        key_path = file_path.removeprefix("complex_biological_project")
        ln_artifact = ln.Artifact(file_path, key=key_path)
        ln_artifact.save()

        data_label = ln.ULabel(name="data")
        data_label.save()
        ln_artifact.ulabels.add(data_label)
→ returning existing artifact with same hash: Artifact(uid='rT9pcrtEIczkatAU0000', is_latest=True, key='raw/raw_data_3.txt', suffix='.txt', size=10, hash='6POyWDhw94pOsBDj7XkIsA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
! key raw/raw_data_3.txt on existing artifact differs from passed key /raw/raw_data_4.txt
→ returning existing artifact with same hash: Artifact(uid='6N5cXEHQZ0vGBo4f0000', is_latest=True, suffix='.txt', size=10, hash='MpJ0MPbV58X0avDDMezt-A', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
! key None on existing artifact differs from passed key /raw/raw_data_1.txt
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='D49JKZO4nLvCeMdB0000', is_latest=True, suffix='.txt', size=10, hash='pKV5QlCzsYZ3UTirdBfraA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
! key None on existing artifact differs from passed key /raw/raw_data_2.txt
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='Am1Jt9QzEh05S88B0000', is_latest=True, key='/raw/Collection_1/raw_data_4.txt', suffix='.txt', size=10, hash='0QpqeUre24vCLVdiBXTNYw', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='xYmZgC8Ph25rpUaA0000', is_latest=True, key='/raw/Collection_1/raw_data_3.txt', suffix='.txt', size=10, hash='q4h9N3D15OdUWA6gYzaqWg', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='QPDKutmlwodhSJ1E0000', is_latest=True, key='/raw/Collection_1/raw_data_1.txt', suffix='.txt', size=10, hash='xc9b7BmckncSEqxImp_YpQ', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='OGMr1f9TZDb1e2Xm0000', is_latest=True, key='/raw/Collection_1/raw_data_2.txt', suffix='.txt', size=10, hash='jkPt4xJbIRoF54boEv758g', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='Ss3w7gqx6Q8GAUYK0000', is_latest=True, key='/raw/Collection_2/raw_data_4.txt', suffix='.txt', size=10, hash='5nejapJBx-UIlvMV7cLPvA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='2fQFDJjKm44eQ8tN0000', is_latest=True, key='/raw/Collection_2/raw_data_3.txt', suffix='.txt', size=10, hash='CE0Zgomv3uKBZ7nYkvTiGg', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='gneU7eP8SE4Kmg9t0000', is_latest=True, key='/raw/Collection_2/raw_data_1.txt', suffix='.txt', size=10, hash='j4HksONF7BMVvQlCsOcf-Q', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing ULabel record with same name: 'data'
→ returning existing artifact with same hash: Artifact(uid='NPwhT0dSJoWFpv9j0000', is_latest=True, key='/raw/Collection_2/raw_data_2.txt', suffix='.txt', size=10, hash='m1zTR9v_KFOm4h5qlM-2YA', _hash_type='md5', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:10 UTC)
→ returning existing ULabel record with same name: 'data'
labels = ln.ULabel.lookup()
ln.Artifact.filter(ulabels__in=[labels.data]).df()
uid version is_latest description key suffix type size hash n_objects n_observations _hash_type _accessor visibility _key_is_virtual storage_id transform_id run_id created_at created_by_id
id
4 rT9pcrtEIczkatAU0000 None True None raw/raw_data_3.txt .txt None 10 6POyWDhw94pOsBDj7XkIsA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.415035+00:00 1
1 6N5cXEHQZ0vGBo4f0000 None True None None .txt None 10 MpJ0MPbV58X0avDDMezt-A None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.375237+00:00 1
2 D49JKZO4nLvCeMdB0000 None True None None .txt None 10 pKV5QlCzsYZ3UTirdBfraA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.380509+00:00 1
5 Am1Jt9QzEh05S88B0000 None True None /raw/Collection_1/raw_data_4.txt .txt None 10 0QpqeUre24vCLVdiBXTNYw None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.880277+00:00 1
6 xYmZgC8Ph25rpUaA0000 None True None /raw/Collection_1/raw_data_3.txt .txt None 10 q4h9N3D15OdUWA6gYzaqWg None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.889661+00:00 1
7 QPDKutmlwodhSJ1E0000 None True None /raw/Collection_1/raw_data_1.txt .txt None 10 xc9b7BmckncSEqxImp_YpQ None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.900031+00:00 1
8 OGMr1f9TZDb1e2Xm0000 None True None /raw/Collection_1/raw_data_2.txt .txt None 10 jkPt4xJbIRoF54boEv758g None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.909214+00:00 1
9 Ss3w7gqx6Q8GAUYK0000 None True None /raw/Collection_2/raw_data_4.txt .txt None 10 5nejapJBx-UIlvMV7cLPvA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.918010+00:00 1
10 2fQFDJjKm44eQ8tN0000 None True None /raw/Collection_2/raw_data_3.txt .txt None 10 CE0Zgomv3uKBZ7nYkvTiGg None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.926831+00:00 1
11 gneU7eP8SE4Kmg9t0000 None True None /raw/Collection_2/raw_data_1.txt .txt None 10 j4HksONF7BMVvQlCsOcf-Q None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.935981+00:00 1
12 NPwhT0dSJoWFpv9j0000 None True None /raw/Collection_2/raw_data_2.txt .txt None 10 m1zTR9v_KFOm4h5qlM-2YA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.945384+00:00 1

However, Ulabels are too versatile for such an approach and clashes are also to be expected here.

Metadata

Due to the chance of clashes for the aforementioned approaches being rather high, we generally recommend not to store hierarchical data with solely semantic keys. Biological metadata makes Files and Collections unambiguous and easily queryable.

Legacy data and multiple storage roots

Distributed Collections

LaminDB can ingest legacy data that already had a structure in their storage. In such cases, it disables _artifact_use_virtual_keys and the artifacts are ingested with their actual storage location. It might be therefore be possible that Files stored in different storage roots may be associated with a single Collection. To simulate this, we are disabling _artifact_use_virtual_keys and ingest artifacts stored in a different path (the “legacy data”).

ln.settings.creation._artifact_use_virtual_keys = False
for root, _, artifacts in os.walk("complex_biological_project/preprocessed"):
    for artifactname in artifacts:
        file_path = os.path.join(root, artifactname)
        key_path = file_path.removeprefix("complex_biological_project")

        print(file_path)
        print()

        ln_artifact = ln.Artifact(file_path, key=f"./{key_path}")
        ln_artifact.save()
complex_biological_project/preprocessed/result_2.txt

• path content will be copied to default storage upon `save()` with key './/preprocessed/result_2.txt'
✓ storing artifact 'Lm6GGQxnKGhpSgWp0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/preprocessed/result_2.txt'
complex_biological_project/preprocessed/result_4.txt
• path content will be copied to default storage upon `save()` with key './/preprocessed/result_4.txt'
✓ storing artifact 'Rai3Rhr2sAA2XyFW0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/preprocessed/result_4.txt'
complex_biological_project/preprocessed/result_3.txt

• path content will be copied to default storage upon `save()` with key './/preprocessed/result_3.txt'
✓ storing artifact 'ygbqS3HlJjz8hRc00000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/preprocessed/result_3.txt'
complex_biological_project/preprocessed/result_1.txt
• path content will be copied to default storage upon `save()` with key './/preprocessed/result_1.txt'
✓ storing artifact 'Weab2v2yzjj94E8T0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/preprocessed/result_1.txt'
ln.Artifact.df()
uid version is_latest description key suffix type size hash n_objects n_observations _hash_type _accessor visibility _key_is_virtual storage_id transform_id run_id created_at created_by_id
id
16 Weab2v2yzjj94E8T0000 None True None .//preprocessed/result_1.txt .txt None 10 FAc23zzNKbBwspzhKtoInw None None md5 None 1 False 1 1 1 2024-10-20 16:21:11.379038+00:00 1
15 ygbqS3HlJjz8hRc00000 None True None .//preprocessed/result_3.txt .txt None 10 CBxHNWVrP5I8ziUE7W0Jug None None md5 None 1 False 1 1 1 2024-10-20 16:21:11.368866+00:00 1
14 Rai3Rhr2sAA2XyFW0000 None True None .//preprocessed/result_4.txt .txt None 10 ESVjoqAgEfc4z4UygjmKgg None None md5 None 1 False 1 1 1 2024-10-20 16:21:11.359810+00:00 1
13 Lm6GGQxnKGhpSgWp0000 None True None .//preprocessed/result_2.txt .txt None 10 KujkO-U7y426W6fsa9amfw None None md5 None 1 False 1 1 1 2024-10-20 16:21:11.350439+00:00 1
12 NPwhT0dSJoWFpv9j0000 None True None /raw/Collection_2/raw_data_2.txt .txt None 10 m1zTR9v_KFOm4h5qlM-2YA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.945384+00:00 1
11 gneU7eP8SE4Kmg9t0000 None True None /raw/Collection_2/raw_data_1.txt .txt None 10 j4HksONF7BMVvQlCsOcf-Q None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.935981+00:00 1
10 2fQFDJjKm44eQ8tN0000 None True None /raw/Collection_2/raw_data_3.txt .txt None 10 CE0Zgomv3uKBZ7nYkvTiGg None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.926831+00:00 1
9 Ss3w7gqx6Q8GAUYK0000 None True None /raw/Collection_2/raw_data_4.txt .txt None 10 5nejapJBx-UIlvMV7cLPvA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.918010+00:00 1
8 OGMr1f9TZDb1e2Xm0000 None True None /raw/Collection_1/raw_data_2.txt .txt None 10 jkPt4xJbIRoF54boEv758g None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.909214+00:00 1
7 QPDKutmlwodhSJ1E0000 None True None /raw/Collection_1/raw_data_1.txt .txt None 10 xc9b7BmckncSEqxImp_YpQ None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.900031+00:00 1
6 xYmZgC8Ph25rpUaA0000 None True None /raw/Collection_1/raw_data_3.txt .txt None 10 q4h9N3D15OdUWA6gYzaqWg None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.889661+00:00 1
5 Am1Jt9QzEh05S88B0000 None True None /raw/Collection_1/raw_data_4.txt .txt None 10 0QpqeUre24vCLVdiBXTNYw None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.880277+00:00 1
2 D49JKZO4nLvCeMdB0000 None True None None .txt None 10 pKV5QlCzsYZ3UTirdBfraA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.380509+00:00 1
1 6N5cXEHQZ0vGBo4f0000 None True None None .txt None 10 MpJ0MPbV58X0avDDMezt-A None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.375237+00:00 1
4 rT9pcrtEIczkatAU0000 None True None raw/raw_data_3.txt .txt None 10 6POyWDhw94pOsBDj7XkIsA None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.415035+00:00 1
3 2PT0zTA0y5GaFErU0000 None True None raw/raw_data_3.txt .txt None 10 TdQzsC37mpUFzLcIjnx51Q None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.409865+00:00 1
artifact_from_raw = ln.Artifact.filter(key__icontains="Collection_2/raw_data_1").first()
artifact_from_preprocessed = ln.Artifact.filter(
    key__icontains="preprocessed/result_1"
).first()

print(artifact_from_raw.path)
print(artifact_from_preprocessed.path)
/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/gneU7eP8SE4Kmg9t0000.txt
/home/runner/work/lamindb/lamindb/docs/faq/key-eval/preprocessed/result_1.txt

Let’s create our Collection:

ds = ln.Collection(
    [artifact_from_raw, artifact_from_preprocessed], name="raw_and_processed_collection_2"
)
ds.save()
Collection(uid='biE7TN5NF8yD5izA0000', is_latest=True, name='raw_and_processed_collection_2', hash='Ro4Fz1CR0Tm0V9jg4pPb_A', visibility=1, created_by_id=1, transform_id=1, run_id=1, created_at=2024-10-20 16:21:11 UTC)
ds.artifacts.df()
uid version is_latest description key suffix type size hash n_objects n_observations _hash_type _accessor visibility _key_is_virtual storage_id transform_id run_id created_at created_by_id
id
11 gneU7eP8SE4Kmg9t0000 None True None /raw/Collection_2/raw_data_1.txt .txt None 10 j4HksONF7BMVvQlCsOcf-Q None None md5 None 1 True 1 1 1 2024-10-20 16:21:10.935981+00:00 1
16 Weab2v2yzjj94E8T0000 None True None .//preprocessed/result_1.txt .txt None 10 FAc23zzNKbBwspzhKtoInw None None md5 None 1 False 1 1 1 2024-10-20 16:21:11.379038+00:00 1

Modeling directories

ln.settings.creation._artifact_use_virtual_keys = True
dir_path = ln.core.datasets.dir_scrnaseq_cellranger("sample_001")
ln.UPath(dir_path).view_tree()
• file has more than one suffix (path.suffixes), using only last suffix: '.bai' - if you want your composite suffix to be recognized add it to lamindb.core.storage.VALID_SIMPLE_SUFFIXES.add()
3 sub-directories & 15 files with suffixes '.cloupe', '.html', '.bam', '.csv', '.bai', '.mtx.gz', '.tsv.gz', '.h5'
/home/runner/work/lamindb/lamindb/docs/faq/sample_001
├── cloupe.cloupe
├── web_summary.html
├── filtered_feature_bc_matrix/
│   ├── features.tsv.gz
│   ├── matrix.mtx.gz
│   └── barcodes.tsv.gz
├── raw_feature_bc_matrix/
│   ├── features.tsv.gz
│   ├── matrix.mtx.gz
│   └── barcodes.tsv.gz
├── metrics_summary.csv
├── filtered_feature_bc_matrix.h5
├── raw_feature_bc_matrix.h5
├── possorted_genome_bam.bam.bai
├── possorted_genome_bam.bam
├── analysis/
│   └── analysis.csv
└── molecule_info.h5

There are two ways to create Artifact objects from directories: from_dir() and Artifact.

cellranger_raw_artifact = ln.Artifact.from_dir("sample_001/raw_feature_bc_matrix/")
! folder is outside existing storage location, will copy files from sample_001/raw_feature_bc_matrix/ to /home/runner/work/lamindb/lamindb/docs/faq/key-eval/raw_feature_bc_matrix
✓ created 3 artifacts from directory using storage /home/runner/work/lamindb/lamindb/docs/faq/key-eval and key = raw_feature_bc_matrix/
for artifact in cellranger_raw_artifact:
    artifact.save()
✓ storing artifact 'cau77VdELEkCvpwL0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/cau77VdELEkCvpwL0000.tsv.gz'
✓ storing artifact 'xTkLcR5Jm8oGKoiI0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/xTkLcR5Jm8oGKoiI0000.mtx.gz'
✓ storing artifact 'lJofCOECljU91SVv0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/lJofCOECljU91SVv0000.tsv.gz'
cellranger_raw_folder = ln.Artifact(
    "sample_001/raw_feature_bc_matrix/", description="cellranger raw"
)
cellranger_raw_folder.save()
• path content will be copied to default storage upon `save()` with key `None` ('.lamindb/1z9z0fKLRz3Pthfp')
✓ storing artifact '1z9z0fKLRz3Pthfp0000' at '/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/1z9z0fKLRz3Pthfp'
Artifact(uid='1z9z0fKLRz3Pthfp0000', is_latest=True, description='cellranger raw', suffix='', size=18, hash='ZEai_vakFo7SAUMo5TOxXw', n_objects=3, _hash_type='md5-d', visibility=1, _key_is_virtual=True, storage_id=1, transform_id=1, run_id=1, created_by_id=1, created_at=2024-10-20 16:21:11 UTC)
ln.Artifact.filter(key__icontains="raw_feature_bc_matrix").df()
uid version is_latest description key suffix type size hash n_objects n_observations _hash_type _accessor visibility _key_is_virtual storage_id transform_id run_id created_at created_by_id
id
17 cau77VdELEkCvpwL0000 None True None raw_feature_bc_matrix/features.tsv.gz .tsv.gz None 6 aaL2NctI5XMyFgraq3qxEw None None md5 None 1 True 1 1 1 2024-10-20 16:21:11.509951+00:00 1
18 xTkLcR5Jm8oGKoiI0000 None True None raw_feature_bc_matrix/matrix.mtx.gz .mtx.gz None 6 lQjWXiqUr1RkTiKMkNjJOw None None md5 None 1 True 1 1 1 2024-10-20 16:21:11.514691+00:00 1
19 lJofCOECljU91SVv0000 None True None raw_feature_bc_matrix/barcodes.tsv.gz .tsv.gz None 6 EyqzAXRCcd9xqW_0TW2W6w None None md5 None 1 True 1 1 1 2024-10-20 16:21:11.519019+00:00 1
ln.Artifact.get(key__icontains="raw_feature_bc_matrix/matrix.mtx.gz").path
PosixUPath('/home/runner/work/lamindb/lamindb/docs/faq/key-eval/.lamindb/xTkLcR5Jm8oGKoiI0000.mtx.gz')
artifact = ln.Artifact.get(description="cellranger raw")
artifact.path.glob("*")
<generator object Path.glob at 0x7f7006147de0>