SQLFrame implements the PySpark DataFrame API in order to enable running transformation pipelines directly on database engines - no Spark clusters or dependencies required.
SQLFrame currently supports the following engines (many more in development):
SQLFrame also has a "Standalone" session that be used to generate SQL without any connection to a database engine.
SQLFrame is great for:
- Users who want to run PySpark DataFrame code without having to use a Spark cluster
- Users who want a SQL representation of their DataFrame code for debugging or sharing with others
- See Spark Engine for more details
- Users who want a DataFrame API that leverages the full power of their engine to do the processing
# BigQuery
pip install "sqlframe[bigquery]"
# DuckDB
pip install "sqlframe[duckdb]"
# Postgres
pip install "sqlframe[postgres]"
# Snowflake
pip install "sqlframe[snowflake]"
# Spark
pip install "sqlframe[spark]"
# Standalone
pip install sqlframeSee specific engine documentation for additional setup instructions.
SQLFrame generates consistently accurate yet complex SQL for engine execution. However, when using df.sql(), it produces more human-readable SQL. For details on how to configure this output and leverage OpenAI to enhance the SQL, see Generated SQL Configuration.
from sqlframe.bigquery import BigQuerySession
from sqlframe.bigquery import functions as F
from sqlframe.bigquery import Window
session = BigQuerySession()
table_path = "bigquery-public-data.samples.natality"
# Top 5 years with the greatest year-over-year % change in new families with single child
df = (
session.table(table_path)
.where(F.col("ever_born") == 1)
.groupBy("year")
.agg(F.count("*").alias("num_single_child_families"))
.withColumn(
"last_year_num_single_child_families",
F.lag(F.col("num_single_child_families"), 1).over(Window.orderBy("year"))
)
.withColumn(
"percent_change",
(F.col("num_single_child_families") - F.col("last_year_num_single_child_families"))
/ F.col("last_year_num_single_child_families")
)
.orderBy(F.abs(F.col("percent_change")).desc())
.select(
F.col("year").alias("year"),
F.format_number("num_single_child_families", 0).alias("new families single child"),
F.format_number(F.col("percent_change") * 100, 2).alias("percent change"),
)
.limit(5)
)>>> df.sql()
WITH `t94228` AS (
SELECT
`natality`.`year` AS `year`,
COUNT(*) AS `num_single_child_families`
FROM `bigquery-public-data`.`samples`.`natality` AS `natality`
WHERE
`natality`.`ever_born` = 1
GROUP BY
`natality`.`year`
), `t39093` AS (
SELECT
`t94228`.`year` AS `year`,
`t94228`.`num_single_child_families` AS `num_single_child_families`,
LAG(`t94228`.`num_single_child_families`, 1) OVER (ORDER BY `t94228`.`year`) AS `last_year_num_single_child_families`
FROM `t94228` AS `t94228`
)
SELECT
`t39093`.`year` AS `year`,
FORMAT('%\'.0f', ROUND(CAST(`t39093`.`num_single_child_families` AS FLOAT64), 0)) AS `new families single child`,
FORMAT('%\'.2f', ROUND(CAST((((`t39093`.`num_single_child_families` - `t39093`.`last_year_num_single_child_families`) / `t39093`.`last_year_num_single_child_families`) * 100) AS FLOAT64), 2)) AS `percent change`
FROM `t39093` AS `t39093`
ORDER BY
ABS(`percent_change`) DESC
LIMIT 5>>> df.show()
+------+---------------------------+----------------+
| year | new families single child | percent change |
+------+---------------------------+----------------+
| 1989 | 1,650,246 | 25.02 |
| 1974 | 783,448 | 14.49 |
| 1977 | 1,057,379 | 11.38 |
| 1985 | 1,308,476 | 11.15 |
| 1975 | 868,985 | 10.92 |
+------+---------------------------+----------------+
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