A Python package to benchmark query performance and comparison on PostgreSQL Database
Project description
pgbenchmark
Python package to benchmark query performance on a PostgreSQL database. It allows you to measure the execution time of queries over multiple runs, providing detailed metrics about each run's performance.
Installation
pip install pgbenchmark
Example
import psycopg2
from pgbenchmark import Benchmark
conn = psycopg2.connect(
dbname="postgres",
user="postgres",
password=" << Your Password >> ",
host="localhost",
port="5432"
)
benchmark = Benchmark(db_connection=conn, number_of_runs=1000)
benchmark.set_sql("SELECT 1;")
for result in benchmark:
# {'run': X, 'sent_at': <DATETIME WITH MS>, 'duration': '0.000064'}
pass
""" View Summary """
print(benchmark.get_execution_results())
# {'runs': 1000, 'min_time': '0.00005', 'max_time': '0.000287', 'avg_time': '0.000072'}
You can also pass SQL file, instead of query string
benchmark.set_sql("./test.sql")
Interactive | No-Code Mode
Simply run in your terminal:
pgbenchmark
You'll see the ouput
[ http://127.0.0.1:8000 ] Click to open pgbenchmark Interface
Configuration on the right, rest is very intuitive.
Pause and Resume buttons are not working for now :(
Example with Parallel execution
⚠️ Please be careful. If you are running on Linux, pgbenchmark will load your cores on 100% !!!⚠️
from pgbenchmark import ParallelBenchmark # <<-------- NEW IMPORT
conn_params = {
"dbname": "postgres",
"user": "postgres",
"password": "",
"host": "localhost",
"port": "5432"
}
n_procs = 20 # Number of Processes (Cores basically)
n_runs_per_proc = 1_000
parallel_bench_pg = ParallelBenchmark(
num_processes=n_procs,
number_of_runs=n_runs_per_proc,
db_connection_info=conn_params
)
parallel_bench_pg.set_sql("SELECT * from information_schema.tables;") # Same as before
""" Unfortunately, as of now, you can't get execution results on the fly. """
parallel_bench_pg.run() # RUN THE BENCHMARK
results_pg = parallel_bench_pg.get_execution_results()
print(results_pg)
Example with Template Engine
From version 0.1.0 pgbenchmark supports simple Template Engine for queries.
import random
import string
from pgbenchmark import ParallelBenchmark
conn_params = {
"dbname": "postgres",
"user": "postgres",
"password": "",
"host": "localhost",
"port": "5432"
}
n_procs = 20
n_runs_per_proc = 10
# Generator Function for Random Product Price
def generate_random_price():
return round(random.randint(10, 1000), 2)
# Generator Function for Random Product Name (String)
def generate_random_string(length=10):
characters = string.ascii_letters + string.digits
return ''.join(random.choice(characters) for _ in range(length))
parallel_bench_pg = ParallelBenchmark(
num_processes=n_procs,
number_of_runs=n_runs_per_proc,
db_connection_info=conn_params
)
# Define the SQL Query Template
query = """
INSERT INTO products (name, price, stock_quantity) VALUES ('{{product_name}}', {{price_value}}, 10);
"""
# ===============================
# Note that similar to Jinja2, you have to define template variables within Query
# {{product_name}}
# {{price_value}}
# ===============================
parallel_bench_pg.set_sql(query)
# Set formatters
parallel_bench_pg.set_sql_formatter(for_placeholder="price_value", generator=generate_random_price)
parallel_bench_pg.set_sql_formatter(for_placeholder="product_name", generator=generate_random_string)
# Run Benchmark
if __name__ == '__main__':
# Run the Parallel Benchmark
parallel_bench_pg.run()
results_pg = parallel_bench_pg.get_execution_results()
throughput = results_pg["throughput_runs_per_sec"]
avg_time = results_pg["avg_time"]
print("\n=============================================================================")
print(" Benchmark Results ")
print("=============================================================================")
print(f"Throughput (runs/sec): {throughput}")
print(f"Average Execution Time (sec): {avg_time}")
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