examples/slam/pose_graph_2d/plot_results.py - ceres-solver - Git at Google

 #!/usr/bin/python
 #
 # Plots the results from the 2D pose graph optimization. It will draw a line
 # between consecutive vertices.  The commandline expects two optional filenames:
 #
 #   ./plot_results.py --initial_poses optional --optimized_poses optional
 #
 # The files have the following format:
 #   ID x y yaw_radians

 import matplotlib.pyplot as plot
 import numpy
 import sys
 from optparse import OptionParser

 parser = OptionParser()
 parser.add_option("--initial_poses", dest="initial_poses",
                   default="", help="The filename that contains the original poses.")
 parser.add_option("--optimized_poses", dest="optimized_poses",
                   default="", help="The filename that contains the optimized poses.")
 (options, args) = parser.parse_args()

 # Read the original and optimized poses files.
 poses_original = None
 if options.initial_poses != '':
   poses_original = numpy.genfromtxt(options.initial_poses, usecols = (1, 2))

 poses_optimized = None
 if options.optimized_poses != '':
   poses_optimized = numpy.genfromtxt(options.optimized_poses, usecols = (1, 2))

 # Plots the results for the specified poses.
 plot.figure()
 if poses_original is not None:
   plot.plot(poses_original[:, 0], poses_original[:, 1], '-', label="Original",
             alpha=0.5, color="green")

 if poses_optimized is not None:
   plot.plot(poses_optimized[:, 0], poses_optimized[:, 1], '-', label="Optimized",
             alpha=0.5, color="blue")

 plot.axis('equal')
 plot.legend()
 # Show the plot and wait for the user to close.
 plot.show()
	#!/usr/bin/python
	#
	# Plots the results from the 2D pose graph optimization. It will draw a line
	# between consecutive vertices. The commandline expects two optional filenames:
	#
	# ./plot_results.py --initial_poses optional --optimized_poses optional
	#
	# The files have the following format:
	# ID x y yaw_radians

	import matplotlib.pyplot as plot
	import numpy
	import sys
	from optparse import OptionParser

	parser = OptionParser()
	parser.add_option("--initial_poses", dest="initial_poses",
	default="", help="The filename that contains the original poses.")
	parser.add_option("--optimized_poses", dest="optimized_poses",
	default="", help="The filename that contains the optimized poses.")
	(options, args) = parser.parse_args()

	# Read the original and optimized poses files.
	poses_original = None
	if options.initial_poses != '':
	poses_original = numpy.genfromtxt(options.initial_poses, usecols = (1, 2))

	poses_optimized = None
	if options.optimized_poses != '':
	poses_optimized = numpy.genfromtxt(options.optimized_poses, usecols = (1, 2))

	# Plots the results for the specified poses.
	plot.figure()
	if poses_original is not None:
	plot.plot(poses_original[:, 0], poses_original[:, 1], '-', label="Original",
	alpha=0.5, color="green")

	if poses_optimized is not None:
	plot.plot(poses_optimized[:, 0], poses_optimized[:, 1], '-', label="Optimized",
	alpha=0.5, color="blue")

	plot.axis('equal')
	plot.legend()
	# Show the plot and wait for the user to close.
	plot.show()