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An extension library to write to and read from BigQuery tables as PyArrow tables.

Project description

pyarrow-bigquery

An extension library to write to and read from BigQuery tables as PyArrow tables.

Table of Contents


Installation

pip install pyarrow-bigquery

Authenticate with Google Cloud (Application Default Credentials), for example:

gcloud auth application-default login

Source Code

https://github.com/xando/pyarrow-bigquery/

Quick Start

Import the namespace package:

import pyarrow as pa
import pyarrow.bigquery as bq

Table and query locations use project.dataset.table. The project in the path is also used as the billing project unless you pass project= explicitly.

Reading

Goal API
Whole table in memory read_table
Whole query result in memory read_query
Stream a large table in chunks reader (context manager)
Stream a large query in chunks reader_query (context manager)

Small table — load entirely

table = bq.read_table("my_project.my_dataset.events")
print(table.num_rows, table.schema)

Small query — load entirely

table = bq.read_query(
    project="my_project",
    query="SELECT id, ts FROM `my_project.my_dataset.events` WHERE ts >= '2024-01-01'",
)

Large table — iterate batches

with bq.reader("my_project.my_dataset.events", batch_size=10_000) as r:
    for chunk in r:
        process(chunk)  # each chunk is a pa.Table

Large query — iterate batches

with bq.reader_query(
    project="my_project",
    query="SELECT * FROM `my_project.my_dataset.events`",
    batch_size=10_000,
) as r:
    print(r.schema)
    for chunk in r:
        process(chunk)

Writing

Goal API
Upload a table in one call write_table
Stream many chunks (generator, ETL, etc.) writer (context manager)

One-shot upload

table = pa.table({"id": [1, 2, 3], "name": ["a", "b", "c"]})
bq.write_table(table, "my_project.my_dataset.names")

Streaming upload

schema = pa.schema([("id", pa.int64()), ("payload", pa.string())])

with bq.writer(schema, "my_project.my_dataset.streamed") as w:
    for batch in generate_batches():
        w.write_table(batch)  # or w.write_batch(record_batch)

Examples

Column projection and row filters

BigQuery applies columns and row_restrictions before data is streamed to clients:

table = bq.read_table(
    "my_project.my_dataset.events",
    columns=["user_id", "event_name", "ts"],
    row_restrictions="event_name = 'purchase' AND ts >= '2024-06-01'",
)

The same options work on reader, read_query, and reader_query.

Query location and large results

Pass location when the query must run in a specific region. For very large query outputs, materialize into a temporary table and read via the Storage API:

with bq.reader_query(
    project="my_project",
    query="SELECT * FROM huge_join ...",
    location="EU",
    large_results=True,
    batch_size=50_000,
) as r:
    for chunk in r:
        process(chunk)
# temporary result table is deleted on exit when large_results=True

read_query(..., large_results=True) works the same way but loads everything into memory.

Parallel workers and IPC exchange

Reads and writes use a pool of threads or processes (worker_count, worker_type). For process workers, pass an IPC exchange compatible with multiprocessing (default: exchange.ArrowIpc()):

import multiprocessing
import pyarrow.bigquery.exchange as exchange

with bq.reader(
    "my_project.my_dataset.big_table",
    worker_type=multiprocessing.Process,
    worker_count=8,
    ipc_exchange=exchange.ArrowIpc(),
    compression="zstd",
) as r:
    for chunk in r:
        process(chunk)

Thread workers default to exchange.Memory(). Other exchanges (Feather, SharedMemory, …) are available under pyarrow.bigquery.exchange for advanced tuning.

worker_type / ipc_exchange only apply to the Python read engine (the default). See below for the Rust engine, which manages concurrency internally.

Read engines (engine="python" vs "rust")

The read APIs (read_table, read_query, reader, reader_query) accept an engine parameter selecting which implementation runs the BigQuery Storage Read session.

engine Default How it works
"python" Spawns a worker pool (threads or processes per worker_type) using the google-cloud-bigquery-storage Python client; results travel through a configurable ipc_exchange. Behaviour is identical to 0.6.x.
"rust" Uses the bundled pyarrow.bigquery._rust extension: a native tonic gRPC client + tokio runtime decodes Arrow IPC and hands batches to Python over the Arrow C Data Interface (no IPC roundtrip, no IPC exchange to configure).
# Default — Python worker pool, identical to 0.6.x
table = bq.read_table("my_project.my_dataset.events")

# Opt-in Rust engine
table = bq.read_table("my_project.my_dataset.events", engine="rust")

# Works the same way for the streaming context manager
with bq.reader("my_project.my_dataset.events", engine="rust", batch_size=10_000) as r:
    for chunk in r:
        process(chunk)

With engine="rust":

  • columns, row_restrictions, batch_size, compression (None | "lz4" | "zstd"), project, delete_source_on_exit all work the same as in the Python engine.
  • worker_count is honoured: it caps the number of read streams the session opens (max_stream_count = worker_count * 3, same default as the Python path).
  • worker_type and ipc_exchange are ignored (a warning is emitted if you pass non-default values). The Rust path always uses a single shared tokio runtime; there is no thread/process choice to make and no IPC exchange to serialize through.
  • Authentication uses the same Application Default Credentials chain as the Python client (gcp_auth crate under the hood).

Choosing an engine: the default is "python" because it's the well-tested, in-place implementation. Switch to "rust" if you've measured a benefit on your workload and are happy depending on the prebuilt wheel for your platform. Both engines pass the same unit-test suite and return the same row counts.

Table creation options on write

# Replace table if it already exists
bq.write_table(
    table,
    "my_project.my_dataset.snapshot",
    table_overwrite=True,
)

# Auto-expire after 7 days
bq.write_table(
    table,
    "my_project.my_dataset.temp_export",
    table_expire=7 * 24 * 3600,
)

# Append to an existing table (must already exist and match schema)
bq.write_table(
    more_rows,
    "my_project.my_dataset.events",
    table_create=False,
)

Chunked write with batch_size

write_table splits the input into upload chunks (default batch_size=10 rows per chunk):

bq.write_table(large_table, "my_project.my_dataset.loaded", batch_size=5000)

API Reference

Writing

pyarrow.bigquery.write_table

Writes a PyArrow table to BigQuery. Returns nothing.

Parameters:

  • table: pa.Table — must be non-empty.
  • where: str — destination project.dataset.table.
  • project: str | None, default None — billing project; inferred from where when omitted.
  • table_create: bool, default True — create the destination table if missing.
  • table_expire: int | None, default None — seconds until table expiry (only when creating).
  • table_overwrite: bool, default False — delete and recreate the table if it exists.
  • worker_type: threading.Thread | multiprocessing.Process, default threading.Thread.
  • worker_count: int, default os.cpu_count().
  • batch_size: int, default 10 — rows per upload chunk inside the call.
bq.write_table(table, "my_project.my_dataset.out")

pyarrow.bigquery.writer (context manager)

Incremental writes. Constructor: writer(schema, where, **options).

Parameters: same table-creation and worker options as write_table (no batch_size on the context manager itself).

Methods:

  • write_table(table: pa.Table) — enqueue a table chunk.
  • write_batch(batch: pa.RecordBatch) — enqueue a single record batch.
schema = pa.schema([("n", pa.int64())])

with bq.writer(schema, "my_project.my_dataset.incremental") as w:
    w.write_batch(pa.record_batch([pa.array([1, 2])], schema=schema))
    w.write_table(pa.table({"n": [3, 4, 5]}))

pyarrow.bigquery.writer.write_table / write_batch

See writer above. Typical loop:

with bq.writer(schema, "my_project.my_dataset.rows") as w:
    for i in range(1000):
        w.write_table(pa.table({"value": [i] * 10}, schema=schema))

Reading

pyarrow.bigquery.read_table

Loads a full table into memory (pa.concat_tables over internal batches).

Parameters:

  • source: strproject.dataset.table.
  • project: str | None, default None.
  • columns: list[str] | None, default None — subset of columns; all columns when omitted.
  • row_restrictions: str | None, default None — SQL filter pushed down to BigQuery Storage Read.
  • worker_type, worker_count — parallel fetch backend (Python engine only; worker_count still caps stream count under the Rust engine).
  • ipc_exchange: exchange instance for worker handoff; default Memory (threads) or ArrowIpc (processes). Ignored when engine="rust".
  • batch_size: int, default 100 — target rows per internal chunk.
  • compression: None | "lz4" | "zstd", default None — Storage API Arrow compression.
  • engine: "python" | "rust", default "python" — implementation selector; see Read engines.
table = bq.read_table("my_project.my_dataset.events", columns=["id"], batch_size=500)

pyarrow.bigquery.read_query

Runs a query and returns the full result as one pa.Table. Accepts the same read tuning parameters as read_table (including engine), plus:

  • location: str | None — query job location.
  • large_results: bool, default False — materialize to a temp table, then read (deleted on exit).
  • large_results_dataset: str, default "_temp_pyarrow_bigquery".
  • large_results_expiration_ms: int, default 86400000 — dataset default TTL when the dataset is first created.
table = bq.read_query(
    project="my_project",
    query="SELECT id FROM `my_project.my_dataset.events` LIMIT 1000",
    location="US",
)

pyarrow.bigquery.reader (context manager)

Streams a table as an iterator of pa.Table chunks.

Parameters: same as read_table (including engine).

Attributes:

  • schema: pa.Schema — available after __enter__.
parts = []
with bq.reader("my_project.my_dataset.events", batch_size=2000) as r:
    print(r.schema)
    for chunk in r:
        parts.append(chunk)
full = pa.concat_tables(parts) if parts else pa.table({})

pyarrow.bigquery.reader_query (context manager)

Runs a query, then streams the result like reader. Query-related parameters match read_query (including engine).

with bq.reader_query(
    project="my_project",
    query="SELECT * FROM `my_project.my_dataset.events`",
    large_results=True,
) as r:
    for chunk in r:
        print(chunk.num_rows)

IPC exchange (pyarrow.bigquery.exchange)

Workers pass Arrow tables through a pluggable exchange. Implementations set thread_compatible / process_compatible flags:

Class Threads Processes Notes
Memory yes no Default for thread workers
ArrowIpc no yes Default for process workers; mmap temp files
Feather no yes Feather temp files
SharedMemory no yes POSIX shared memory
SharedMemoryDict yes yes Slow; mainly for completeness
import pyarrow.bigquery.exchange as exchange

with bq.reader(
    "my_project.my_dataset.t",
    worker_type=multiprocessing.Process,
    ipc_exchange=exchange.SharedMemory(),
) as r:
    ...

Authentication

The library uses Application Default Credentials. Ensure the active principal can read/write the target datasets (BigQuery and BigQuery Storage API permissions).

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