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anndata

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Data structure for annotated matrices in single-cell analysis. Use when working with .h5ad files or integrating with the scverse ecosystem. This is the data for

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AnnData

Overview

AnnData is a Python package for handling annotated data matrices, storing experimental measurements (X) alongside observation metadata (obs), variable metadata (var), and multi-dimensional annotations (obsm, varm, obsp, varp, uns). Originally designed for single-cell genomics through Scanpy, it now serves as a general-purpose framework for any annotated data requiring efficient storage, manipulation, and analysis.

When to Use This Skill

Use this skill when:

  • Creating, reading, or writing AnnData objects
  • Working with h5ad, zarr, or other genomics data formats
  • Performing single-cell RNA-seq analysis
  • Managing large datasets with sparse matrices or backed mode
  • Concatenating multiple datasets or experimental batches
  • Subsetting, filtering, or transforming annotated data
  • Integrating with scanpy, scvi-tools, or other scverse ecosystem tools

Installation

Requires Python 3.11+. Current stable release: 0.12.16 (released 2026-05-18).

uv pip install "anndata==0.12.16"

# Lazy I/O and dask-backed operations
uv pip install "anndata[dask,lazy]==0.12.16"

# Development / docs (contributors)
uv pip install "anndata[dev,test,doc]==0.12.16"

Use unpinned installs only when intentionally tracking the latest compatible release.

Current API notes:

  • Use anndata.io for non-native read_* and write_* helpers. Top-level anndata.read_h5ad and anndata.read_zarr remain supported.
  • Avoid deprecated APIs: ad.read, AnnData.concatenate(), AnnData.*_keys(), and anndata.__version__. Prefer ad.read_h5ad, ad.concat, mapping .keys(), and importlib.metadata.version("anndata").
  • Treat anndata.experimental APIs as useful but unstable. Prefer them for large-data workflows only when their current caveats are acceptable.

Quick Start

Creating an AnnData object

import anndata as ad
import numpy as np
import pandas as pd

# Minimal creation
X = np.random.rand(100, 2000)  # 100 cells × 2000 genes
adata = ad.AnnData(X)

# With metadata
obs = pd.DataFrame({
    'cell_type': ['T cell', 'B cell'] * 50,
    'sample': ['A', 'B'] * 50
}, index=[f'cell_{i}' for i in range(100)])

var = pd.DataFrame({
    'gene_name': [f'Gene_{i}' for i in range(2000)]
}, index=[f'ENSG{i:05d}' for i in range(2000)])

adata = ad.AnnData(X=X, obs=obs, var=var)

Reading data

# Native formats (read_h5ad/read_zarr remain at top-level)
adata = ad.read_h5ad('data.h5ad')
adata = ad.read_h5ad('large_data.h5ad', backed='r')  # lazy load for large files
adata = ad.read_zarr('data.zarr')

# Other formats: prefer anndata.io (top-level imports are deprecated)
from anndata.io import read_csv, read_loom, read_mtx

adata = read_csv('data.csv')
adata = read_loom('data.loom')

# 10X Genomics: use scanpy (not anndata) — see scanpy skill
import scanpy as sc
adata = sc.read_10x_h5('filtered_feature_bc_matrix.h5')
adata = sc.read_10x_mtx('filtered_feature_bc_matrix/')

Writing data

# Write h5ad file
adata.write_h5ad('output.h5ad')

# Write with compression
adata.write_h5ad('output.h5ad', compression='gzip')

# Write other formats
adata.write_zarr('output.zarr')
adata.write_csvs('output_dir/')

Basic operations

# Subset by conditions
t_cells = adata[adata.obs['cell_type'] == 'T cell']

# Subset by indices
subset = adata[0:50, 0:100]

# Add metadata
adata.obs['quality_score'] = np.random.rand(adata.n_obs)
adata.var['highly_variable'] = np.random.rand(adata.n_vars) > 0.8

# Access dimensions
print(f"{adata.n_obs} observations × {adata.n_vars} variables")

Core Capabilities

1. Data Structure

Understand the AnnData object structure including X, obs, var, layers, obsm, varm, obsp, varp, uns, and raw components.

See: references/data_structure.md for comprehensive information on:

  • Core components (X, obs, var, layers, obsm, varm, obsp, varp, uns, raw)
  • Creating AnnData objects from various sources
  • Accessing and manipulating data components
  • Memory-efficient practices

2. Input/Output Operations

Read and write data in various formats with support for compression, backed mode, and cloud storage.

See: references/io_operations.md for details on:

  • Native formats (h5ad, zarr)
  • Alternative formats (CSV, MTX, Loom, 10X, Excel)
  • Backed mode for large datasets
  • Remote data access
  • Format conversion
  • Performance optimization

Common commands:

from anndata.io import read_mtx

# Read/write h5ad
adata = ad.read_h5ad('data.h5ad', backed='r')
adata.write_h5ad('output.h5ad', compression='gzip')

# 10X Genomics (via scanpy)
import scanpy as sc
adata = sc.read_10x_h5('filtered_feature_bc_matrix.h5')

# Read MTX format
adata = read_mtx('matrix.mtx').T

3. Concatenation

Combine multiple AnnData objects along observations or variables with flexible join strategies.

See: references/concatenation.md for comprehensive coverage of:

  • Basic concatenation (axis=0 for observations, axis=1 for variables)
  • Join types (inner, outer)
  • Merge strategies (same, unique, first, only)
  • Tracking data sources with labels
  • Lazy concatenation (AnnCollection)
  • On-disk concatenation for large datasets

Common commands:

# Concatenate observations (combine samples)
adata = ad.concat(
    [adata1, adata2, adata3],
    axis=0,
    join='inner',
    label='batch',
    keys=['batch1', 'batch2', 'batch3']
)

# Concatenate variables (combine modalities)
adata = ad.concat([adata_rna, adata_protein], axis=1)

# Lazy collection over backed AnnData objects (experimental)
from anndata.experimental import AnnCollection

backed_adatas = [
    ad.read_h5ad(path, backed='r')
    for path in ['data1.h5ad', 'data2.h5ad']
]
collection = AnnCollection(
    backed_adatas,
    join_obs='outer',
    join_vars='inner',
    label='dataset'
)

4. Data Manipulation

Transform, subset, filter, and reorganize data efficiently.

See: references/manipulation.md for detailed guidance on:

  • Subsetting (by indices, names, boolean masks, metadata conditions)
  • Transposition
  • Copying (full copies vs views)
  • Renaming (observations, variables, categories)
  • Type conversions (strings to categoricals, sparse/dense)
  • Adding/removing data components
  • Reordering
  • Quality control filtering

Common commands:

# Subset by metadata
filtered = adata[adata.obs['quality_score'] > 0.8]
hv_genes = adata[:, adata.var['highly_variable']]

# Transpose
adata_T = adata.T

# Copy vs view
view = adata[0:100, :]  # View (lightweight reference)
copy = adata[0:100, :].copy()  # Independent copy

# Convert strings to categoricals
adata.strings_to_categoricals()

5. Best Practices

Follow recommended patterns for memory efficiency, performance, and reproducibility.

See: references/best_practices.md for guidelines on:

  • Memory management (sparse matrices, categoricals, backed mode)
  • Views vs copies
  • Data storage optimization
  • Performance optimization
  • Working with raw data
  • Metadata management
  • Reproducibility
  • Error handling
  • Integration with other tools
  • Common pitfalls and solutions

Key recommendations:

# Use sparse matrices for sparse data
from scipy.sparse import csr_matrix
adata.X = csr_matrix(adata.X)

# Convert strings to categoricals
adata.strings_to_categoricals()

# Use backed mode for large files
adata = ad.read_h5ad('large.h5ad', backed='r')

# Store raw before filtering
adata.raw = adata.copy()
adata = adata[:, adata.var['highly_variable']]

Integration with Scverse Ecosystem

AnnData serves as the foundational data structure for the scverse ecosystem:

Scanpy (Single-cell analysis)

import scanpy as sc

# Preprocessing
sc.pp.filter_cells(adata, min_genes=200)
sc.pp.normalize_total(adata, target_sum=1e4)
sc.pp.log1p(adata)
sc.pp.highly_variable_genes(adata, n_top_genes=2000)

# Dimensionality reduction
sc.pp.pca(adata, n_comps=50)
sc.pp.neighbors(adata, n_neighbors=15)
sc.tl.umap(adata)
sc.tl.leiden(adata)

# Visualization

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Вложенные файлы

references/best_practices.mdreferences/concatenation.mdreferences/data_structure.mdreferences/io_operations.mdreferences/manipulation.md

FAQ

Что делает скилл anndata?

Data structure for annotated matrices in single-cell analysis. Use when working with .h5ad files or integrating with the scverse ecosystem. This is the data format skill—for analysis workflows use scanpy; for probabilistic models use scvi-tools; for population-scale queries use cellxgene-census.

Как установить скилл anndata?

Скопируй папку скилла в ~/.claude/skills (вкладка Claude Code выше делает это одной командой), либо поставь как плагин.

Скилл anndata запускает скрипты?

Нет, скилл состоит только из инструкций (SKILL.md), без исполняемых скриптов.

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