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triad_openvr.py
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triad_openvr.py
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import time
import sys
import openvr
import math
import json
from functools import lru_cache
# Function to print out text but instead of starting a new line it will overwrite the existing line
def update_text(txt):
sys.stdout.write('\r'+txt)
sys.stdout.flush()
#Convert the standard 3x4 position/rotation matrix to a x,y,z location and the appropriate Euler angles (in degrees)
def convert_to_euler(pose_mat):
yaw = 180 / math.pi * math.atan2(pose_mat[1][0], pose_mat[0][0])
pitch = 180 / math.pi * math.atan2(pose_mat[2][0], pose_mat[0][0])
roll = 180 / math.pi * math.atan2(pose_mat[2][1], pose_mat[2][2])
x = pose_mat[0][3]
y = pose_mat[1][3]
z = pose_mat[2][3]
return [x,y,z,yaw,pitch,roll]
#Convert the standard 3x4 position/rotation matrix to a x,y,z location and the appropriate Quaternion
def convert_to_quaternion(pose_mat):
# Per issue #2, adding a abs() so that sqrt only results in real numbers
r_w = math.sqrt(abs(1+pose_mat[0][0]+pose_mat[1][1]+pose_mat[2][2]))/2
r_x = (pose_mat[2][1]-pose_mat[1][2])/(4*r_w)
r_y = (pose_mat[0][2]-pose_mat[2][0])/(4*r_w)
r_z = (pose_mat[1][0]-pose_mat[0][1])/(4*r_w)
x = pose_mat[0][3]
y = pose_mat[1][3]
z = pose_mat[2][3]
return [x,y,z,r_w,r_x,r_y,r_z]
#Define a class to make it easy to append pose matricies and convert to both Euler and Quaternion for plotting
class pose_sample_buffer():
def __init__(self):
self.i = 0
self.index = []
self.time = []
self.x = []
self.y = []
self.z = []
self.yaw = []
self.pitch = []
self.roll = []
self.r_w = []
self.r_x = []
self.r_y = []
self.r_z = []
def append(self,pose_mat,t):
self.time.append(t)
self.x.append(pose_mat[0][3])
self.y.append(pose_mat[1][3])
self.z.append(pose_mat[2][3])
self.yaw.append(180 / math.pi * math.atan(pose_mat[1][0] /pose_mat[0][0]))
self.pitch.append(180 / math.pi * math.atan(-1 * pose_mat[2][0] / math.sqrt(pow(pose_mat[2][1], 2) + math.pow(pose_mat[2][2], 2))))
self.roll.append(180 / math.pi * math.atan(pose_mat[2][1] /pose_mat[2][2]))
r_w = math.sqrt(abs(1+pose_mat[0][0]+pose_mat[1][1]+pose_mat[2][2]))/2
self.r_w.append(r_w)
self.r_x.append((pose_mat[2][1]-pose_mat[1][2])/(4*r_w))
self.r_y.append((pose_mat[0][2]-pose_mat[2][0])/(4*r_w))
self.r_z.append((pose_mat[1][0]-pose_mat[0][1])/(4*r_w))
def get_pose(vr_obj):
return vr_obj.getDeviceToAbsoluteTrackingPose(openvr.TrackingUniverseStanding, 0, openvr.k_unMaxTrackedDeviceCount)
class vr_tracked_device():
def __init__(self,vr_obj,index,device_class):
self.device_class = device_class
self.index = index
self.vr = vr_obj
@lru_cache(maxsize=None)
def get_serial(self):
return self.vr.getStringTrackedDeviceProperty(self.index, openvr.Prop_SerialNumber_String)
def get_model(self):
return self.vr.getStringTrackedDeviceProperty(self.index, openvr.Prop_ModelNumber_String)
def get_battery_percent(self):
return self.vr.getFloatTrackedDeviceProperty(self.index, openvr.Prop_DeviceBatteryPercentage_Float)
def is_charging(self):
return self.vr.getBoolTrackedDeviceProperty(self.index, openvr.Prop_DeviceIsCharging_Bool)
def sample(self,num_samples,sample_rate):
interval = 1/sample_rate
rtn = pose_sample_buffer()
sample_start = time.time()
for i in range(num_samples):
start = time.time()
pose = get_pose(self.vr)
rtn.append(pose[self.index].mDeviceToAbsoluteTracking,time.time()-sample_start)
sleep_time = interval- (time.time()-start)
if sleep_time>0:
time.sleep(sleep_time)
return rtn
def get_pose_euler(self, pose=None):
if pose == None:
pose = get_pose(self.vr)
if pose[self.index].bPoseIsValid:
return convert_to_euler(pose[self.index].mDeviceToAbsoluteTracking)
else:
return None
def get_pose_matrix(self, pose=None):
if pose == None:
pose = get_pose(self.vr)
if pose[self.index].bPoseIsValid:
return pose[self.index].mDeviceToAbsoluteTracking
else:
return None
def get_velocity(self, pose=None):
if pose == None:
pose = get_pose(self.vr)
if pose[self.index].bPoseIsValid:
return pose[self.index].vVelocity
else:
return None
def get_angular_velocity(self, pose=None):
if pose == None:
pose = get_pose(self.vr)
if pose[self.index].bPoseIsValid:
return pose[self.index].vAngularVelocity
else:
return None
def get_pose_quaternion(self, pose=None):
if pose == None:
pose = get_pose(self.vr)
if pose[self.index].bPoseIsValid:
return convert_to_quaternion(pose[self.index].mDeviceToAbsoluteTracking)
else:
return None
def controller_state_to_dict(self, pControllerState):
# This function is graciously borrowed from https://gist.github.com/awesomebytes/75daab3adb62b331f21ecf3a03b3ab46
# docs: https://github.com/ValveSoftware/openvr/wiki/IVRSystem::GetControllerState
d = {}
d['unPacketNum'] = pControllerState.unPacketNum
# on trigger .y is always 0.0 says the docs
d['trigger'] = pControllerState.rAxis[1].x
# 0.0 on trigger is fully released
# -1.0 to 1.0 on joystick and trackpads
d['trackpad_x'] = pControllerState.rAxis[0].x
d['trackpad_y'] = pControllerState.rAxis[0].y
# These are published and always 0.0
# for i in range(2, 5):
# d['unknowns_' + str(i) + '_x'] = pControllerState.rAxis[i].x
# d['unknowns_' + str(i) + '_y'] = pControllerState.rAxis[i].y
d['ulButtonPressed'] = pControllerState.ulButtonPressed
d['ulButtonTouched'] = pControllerState.ulButtonTouched
# To make easier to understand what is going on
# Second bit marks menu button
d['menu_button'] = bool(pControllerState.ulButtonPressed >> 1 & 1)
# 32 bit marks trackpad
d['trackpad_pressed'] = bool(pControllerState.ulButtonPressed >> 32 & 1)
d['trackpad_touched'] = bool(pControllerState.ulButtonTouched >> 32 & 1)
# third bit marks grip button
d['grip_button'] = bool(pControllerState.ulButtonPressed >> 2 & 1)
# System button can't be read, if you press it
# the controllers stop reporting
return d
def get_controller_inputs(self):
result, state = self.vr.getControllerState(self.index)
return self.controller_state_to_dict(state)
def trigger_haptic_pulse(self, duration_micros=1000, axis_id=0):
"""
Causes devices with haptic feedback to vibrate for a short time.
"""
self.vr.triggerHapticPulse(self.index ,axis_id, duration_micros)
class vr_tracking_reference(vr_tracked_device):
def get_mode(self):
return self.vr.getStringTrackedDeviceProperty(self.index,openvr.Prop_ModeLabel_String).decode('utf-8').upper()
def sample(self,num_samples,sample_rate):
print("Warning: Tracking References do not move, sample isn't much use...")
class triad_openvr():
def __init__(self, configfile_path=None):
# Initialize OpenVR in the
self.vr = openvr.init(openvr.VRApplication_Other)
self.vrsystem = openvr.VRSystem()
# Initializing object to hold indexes for various tracked objects
self.object_names = {"Tracking Reference":[],"HMD":[],"Controller":[],"Tracker":[]}
self.devices = {}
self.device_index_map = {}
poses = self.vr.getDeviceToAbsoluteTrackingPose(openvr.TrackingUniverseStanding, 0,
openvr.k_unMaxTrackedDeviceCount)
# Loading config file
if configfile_path:
try:
with open(configfile_path, 'r') as json_data:
config = json.load(json_data)
except EnvironmentError: # parent of IOError, OSError *and* WindowsError where available
print('config.json not found.')
exit(1)
# Iterate through the pose list to find the active devices and determine their type
for i in range(openvr.k_unMaxTrackedDeviceCount):
if poses[i].bDeviceIsConnected:
device_serial = self.vr.getStringTrackedDeviceProperty(i,openvr.Prop_SerialNumber_String).decode('utf-8')
for device in config['devices']:
if device_serial == device['serial']:
device_name = device['name']
self.object_names[device['type']].append(device_name)
self.devices[device_name] = vr_tracked_device(self.vr,i,device['type'])
else:
# Iterate through the pose list to find the active devices and determine their type
for i in range(openvr.k_unMaxTrackedDeviceCount):
if poses[i].bDeviceIsConnected:
self.add_tracked_device(i)
def __del__(self):
openvr.shutdown()
def get_pose(self):
return get_pose(self.vr)
def poll_vr_events(self):
"""
Used to poll VR events and find any new tracked devices or ones that are no longer tracked.
"""
event = openvr.VREvent_t()
while self.vrsystem.pollNextEvent(event):
if event.eventType == openvr.VREvent_TrackedDeviceActivated:
self.add_tracked_device(event.trackedDeviceIndex)
elif event.eventType == openvr.VREvent_TrackedDeviceDeactivated:
#If we were already tracking this device, quit tracking it.
if event.trackedDeviceIndex in self.device_index_map:
self.remove_tracked_device(event.trackedDeviceIndex)
def add_tracked_device(self, tracked_device_index):
i = tracked_device_index
device_class = self.vr.getTrackedDeviceClass(i)
if (device_class == openvr.TrackedDeviceClass_Controller):
device_name = "controller_"+str(len(self.object_names["Controller"])+1)
self.object_names["Controller"].append(device_name)
self.devices[device_name] = vr_tracked_device(self.vr,i,"Controller")
self.device_index_map[i] = device_name
elif (device_class == openvr.TrackedDeviceClass_HMD):
device_name = "hmd_"+str(len(self.object_names["HMD"])+1)
self.object_names["HMD"].append(device_name)
self.devices[device_name] = vr_tracked_device(self.vr,i,"HMD")
self.device_index_map[i] = device_name
elif (device_class == openvr.TrackedDeviceClass_GenericTracker):
device_name = "tracker_"+str(len(self.object_names["Tracker"])+1)
self.object_names["Tracker"].append(device_name)
self.devices[device_name] = vr_tracked_device(self.vr,i,"Tracker")
self.device_index_map[i] = device_name
elif (device_class == openvr.TrackedDeviceClass_TrackingReference):
device_name = "tracking_reference_"+str(len(self.object_names["Tracking Reference"])+1)
self.object_names["Tracking Reference"].append(device_name)
self.devices[device_name] = vr_tracking_reference(self.vr,i,"Tracking Reference")
self.device_index_map[i] = device_name
def remove_tracked_device(self, tracked_device_index):
if tracked_device_index in self.device_index_map:
device_name = self.device_index_map[tracked_device_index]
self.object_names[self.devices[device_name].device_class].remove(device_name)
del self.device_index_map[tracked_device_index]
del self.devices[device_name]
else:
raise Exception("Tracked device index {} not valid. Not removing.".format(tracked_device_index))
def rename_device(self,old_device_name,new_device_name):
self.devices[new_device_name] = self.devices.pop(old_device_name)
for i in range(len(self.object_names[self.devices[new_device_name].device_class])):
if self.object_names[self.devices[new_device_name].device_class][i] == old_device_name:
self.object_names[self.devices[new_device_name].device_class][i] = new_device_name
def print_discovered_objects(self):
for device_type in self.object_names:
plural = device_type
if len(self.object_names[device_type])!=1:
plural+="s"
print("Found "+str(len(self.object_names[device_type]))+" "+plural)
for device in self.object_names[device_type]:
if device_type == "Tracking Reference":
print(" "+device+" ("+self.devices[device].get_serial()+
", Mode "+self.devices[device].get_model()+
", "+self.devices[device].get_model()+
")")
else:
print(" "+device+" ("+self.devices[device].get_serial()+
", "+self.devices[device].get_model()+")")