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gtsam/python/gtsam_utils/plot.py

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import numpy as np
import matplotlib.pyplot as plt
from mpl_toolkits.mplot3d import Axes3D as _Axes3D
def plotPoint3(fignum, point, linespec):
fig = plt.figure(fignum)
ax = fig.gca(projection='3d')
ax.plot([point.x()], [point.y()], [point.z()], linespec)
def plot3DPoints(fignum, values, linespec, marginals=None):
# PLOT3DPOINTS Plots the Point3's in a values, with optional covariances
# Finds all the Point3 objects in the given Values object and plots them.
# If a Marginals object is given, this function will also plot marginal
# covariance ellipses for each point.
keys = values.keys()
# Plot points and covariance matrices
for key in keys:
try:
p = values.atPoint3(key);
# if haveMarginals
# P = marginals.marginalCovariance(key);
# gtsam.plotPoint3(p, linespec, P);
# else
plotPoint3(fignum, p, linespec);
except RuntimeError:
continue
# I guess it's not a Point3
def plotPose3(fignum, pose, axisLength=0.1):
# get figure object
fig = plt.figure(fignum)
ax = fig.gca(projection='3d')
# get rotation and translation (center)
gRp = pose.rotation().matrix() # rotation from pose to global
C = pose.translation().vector()
# draw the camera axes
xAxis = C + gRp[:, 0] * axisLength
L = np.append(C[np.newaxis], xAxis[np.newaxis], axis=0)
ax.plot(L[:, 0], L[:, 1], L[:, 2], 'r-')
yAxis = C + gRp[:, 1] * axisLength
L = np.append(C[np.newaxis], yAxis[np.newaxis], axis=0)
ax.plot(L[:, 0], L[:, 1], L[:, 2], 'g-')
zAxis = C + gRp[:, 2] * axisLength
L = np.append(C[np.newaxis], zAxis[np.newaxis], axis=0)
ax.plot(L[:, 0], L[:, 1], L[:, 2], 'b-')
# # plot the covariance
# if (nargin>2) && (~isempty(P))
# pPp = P(4:6,4:6); % covariance matrix in pose coordinate frame
# gPp = gRp*pPp*gRp'; % convert the covariance matrix to global coordinate frame
# gtsam.covarianceEllipse3D(C,gPp);
# end
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