OpenElectricity Python Client
Project description
OpenElectricity Python Client
[!WARNING] This project and the v4 API are currently under active development.
A Python client for the OpenElectricity API, providing access to electricity and energy network data and metrics for Australia.
[!NOTE] API key signups are currently waitlisted and will be released gradually.
To obtain an API key visit platform.openelectricity.org.au
For documentation visit docs.openelectricity.org.au
Features
- Synchronous and asynchronous API clients
- Fully typed with comprehensive type annotations
- Automatic request retries and error handling
- Context manager support
- Modern Python (3.10+) with full type annotations
- Direct conversion to Pandas and Polars DataFrames
Installation
# Install base package
pip install openelectricity
# or with uv (recommended)
uv add openelectricity
# Install with data analysis support (Polars/Pandas)
uv add "openelectricity[analysis]"
Quick Start
First, set your API key in the environment:
# Set your API key
export OPENELECTRICITY_API_KEY=your-api-key
# Optional: Override API server (defaults to production)
export OPENELECTRICITY_API_URL=http://localhost:8000/v4
Then in your code:
from datetime import datetime, timedelta
from openelectricity import OEClient
from openelectricity.types import DataMetric, UnitFueltechType, UnitStatusType
# Calculate date range
end_date = datetime.now().replace(hour=0, minute=0, second=0, microsecond=0)
start_date = end_date - timedelta(days=7)
# Using context manager (recommended)
with OEClient() as client:
# Get operating solar and wind facilities
facilities = client.get_facilities(
network_id=["NEM"],
status_id=[UnitStatusType.OPERATING],
fueltech_id=[UnitFueltechType.SOLAR_UTILITY, UnitFueltechType.WIND],
)
# Get network data for NEM
response = client.get_network_data(
network_code="NEM",
metrics=[DataMetric.POWER, DataMetric.ENERGY],
interval="1d",
date_start=start_date,
date_end=end_date,
secondary_grouping="fueltech_group",
)
# Print results
for series in response.data:
print(f"\nMetric: {series.metric}")
print(f"Unit: {series.unit}")
for result in series.results:
print(f"\n {result.name}:")
print(f" Fuel Tech Group: {result.columns.fueltech_group}")
for point in result.data:
print(f" {point.timestamp}: {point.value:.2f} {series.unit}")
For async usage:
from openelectricity import AsyncOEClient
import asyncio
async def main():
async with AsyncOEClient() as client:
# Get operating solar and wind facilities
facilities = await client.get_facilities(
network_id=["NEM"],
status_id=[UnitStatusType.OPERATING],
fueltech_id=[UnitFueltechType.SOLAR_UTILITY, UnitFueltechType.WIND],
)
# Get network data
response = await client.get_network_data(
network_code="NEM",
metrics=[DataMetric.POWER],
interval="1d",
secondary_grouping="fueltech_group",
)
# Process response...
asyncio.run(main())
Data Analysis
The client provides built-in support for converting API responses to popular data analysis formats.
Using with Polars
# Make sure you've installed with analysis extras
# uv add "openelectricity[analysis]"
from openelectricity import OEClient
from openelectricity.types import DataMetric
with OEClient() as client:
response = client.get_network_data(
network_code="NEM",
metrics=[DataMetric.POWER, DataMetric.ENERGY],
interval="1d",
secondary_grouping="fueltech_group",
)
# Convert to Polars DataFrame
df = response.to_polars()
# Get metric units
units = response.get_metric_units()
# Analyze data
energy_by_fueltech = (
df.group_by("fueltech_group")
.agg(
pl.col("energy").sum().alias("total_energy_mwh"),
pl.col("power").mean().alias("avg_power_mw"),
)
.sort("total_energy_mwh", descending=True)
)
Using with Pandas
# Make sure you've installed with analysis extras
# uv add "openelectricity[analysis]"
from openelectricity import OEClient
from openelectricity.types import DataMetric
with OEClient() as client:
response = client.get_network_data(
network_code="NEM",
metrics=[DataMetric.POWER, DataMetric.ENERGY],
interval="1d",
secondary_grouping="fueltech_group",
)
# Convert to Pandas DataFrame
df = response.to_pandas()
# Get metric units
units = response.get_metric_units()
# Analyze data
energy_by_fueltech = (
df.groupby("fueltech_group")
.agg({
"energy": "sum",
"power": "mean",
})
.sort_values("energy", ascending=False)
)
Development
-
Clone the repository
-
Install development dependencies:
make install -
Run tests:
make test
-
Format code:
make format -
Run linters:
make lint
License
This project is licensed under the MIT License - see the LICENSE file for details.
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