Python SDK for the CyberWave Platform
Project description
Cyberwave Python SDK
The official Python SDK for Cyberwave. Create, control, and simulate robotics with ease.
Installation
pip install cyberwave
Quick Start
1. Get Your Token
Get your API token from the Cyberwave platform:
- Log in to your Cyberwave instance
- Navigate to Settings → API Tokens
- Copy your token
2. Create Your First Digital Twin
import cyberwave as cw
# Configure with your token
cw.configure(
token="your_token_here",
)
# Create a digital twin from an asset
robot = cw.twin("cyberwave/so101")
# Control position and rotation
robot.move(x=1.0, y=0.0, z=0.5)
robot.rotate(yaw=90) # degrees
# Control robot joints (for URDF assets)
robot.joints.shoulder_joint = 45 # degrees
robot.joints.elbow_joint = -30
# Get current joint positions
print(robot.joints.get_all())
Core Features
Working with Workspaces and Projects
from cyberwave import Cyberwave
client = Cyberwave(
token="your_token_here"
)
# List workspaces
workspaces = client.workspaces.list()
print(f"Found {len(workspaces)} workspaces")
# Create a project
project = client.projects.create(
name="My Robotics Project",
workspace_id=workspaces[0].uuid
)
# Create an environment
environment = client.environments.create(
name="Development",
project_id=project.uuid
)
Managing Assets and Twins
# Search for assets
assets = client.assets.search("robot")
# Create a twin from an asset
twin_data = client.twins.create(
asset_id=assets[0].uuid,
environment_id=environment.uuid,
name="Robot-01"
)
# Use the high-level Twin API
from cyberwave import Twin
robot = Twin(client, twin_data)
# Move to a specific position
robot.move_to([1.0, 0.5, 0.0])
# Update scale
robot.scale(x=1.5, y=1.5, z=1.5)
# Delete when done
robot.delete()
Real-time Updates with MQTT
# Define callback for position updates
def on_position_change(data):
print(f"Twin moved to: {data}")
# Subscribe to real-time updates
client.mqtt.subscribe_twin_position("twin_uuid", on_position_change)
# Publish position updates
client.mqtt.publish_twin_position(
twin_id="twin_uuid",
x=1.0, y=0.0, z=0.5
)
# Subscribe to joint states
def on_joint_update(data):
print(f"Joint states: {data}")
client.mqtt.subscribe_joint_states("twin_uuid", on_joint_update)
Configuration Options
You can also set your token as environment variable:
export CYBERWAVE_TOKEN="your_token_here"
import cyberwave as cw
# SDK will automatically load from environment variables
robot = cw.twin("cyberwave/so101")
Programmatic Configuration
import cyberwave as cw
cw.configure(
token="your_token_here", # Bearer token
environment="env_uuid", # Default environment
workspace="workspace_uuid", # Default workspace
)
Advanced Usage
Context Manager for Cleanup
from cyberwave import Cyberwave
with Cyberwave(token="YOURTOKEN") as client:
twins = client.twins.list()
for twin in twins:
print(twin.name)
# Automatically disconnects MQTT and cleans up resources
Joint Control
You can change a specific joint actuation. You can use degrees or radiants:
robot = cw.twin("cyberwave/so101")
# Set individual joints (degrees by default)
robot.joints.set("shoulder_joint", 45, degrees=True)
# Or use radians
import math
robot.joints.set("elbow_joint", math.pi/4, degrees=False)
# Get current joint position
angle = robot.joints.get("shoulder_joint")
# List all joints
joint_names = robot.joints.list()
# Get all joint states at once
all_joints = robot.joints.get_all()
API Reference
Cyberwave Client
client.workspaces- Workspace managementclient.projects- Project managementclient.environments- Environment managementclient.assets- Asset catalog operationsclient.twins- Digital twin CRUD operationsclient.mqtt- Real-time MQTT client
Twin Class
twin.move(x, y, z)- Move twin to positiontwin.move_to([x, y, z])- Move to position arraytwin.rotate(yaw, pitch, roll)- Rotate using euler anglestwin.rotate(quaternion=[x,y,z,w])- Rotate using quaterniontwin.scale(x, y, z)- Scale the twintwin.joints- Joint controller for robot manipulationtwin.delete()- Delete the twintwin.refresh()- Reload twin data from server
Examples
Check the SDK repository for complete examples:
- Basic twin control
- Multi-robot coordination
- Real-time synchronization
- Joint manipulation for robot arms
Testing
Unit Tests
Run basic import tests:
poetry install
poetry run python tests/test_imports.py
Support
- Documentation: cyberwave.com/docs
- Issues: GitHub Issues
Release history Release notifications | RSS feed
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