scripts: Small improvements for input shaper and accelerometer scripts
Signed-off-by: Dmitry Butyugin <dmbutyugin@google.com>
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@ -7,11 +7,14 @@
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# This file may be distributed under the terms of the GNU GPLv3 license.
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from __future__ import print_function
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import optparse, os, sys
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from textwrap import wrap
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import numpy as np, matplotlib
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sys.path.append(os.path.join(os.path.dirname(os.path.realpath(__file__)),
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'..', 'klippy', 'extras'))
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from shaper_calibrate import CalibrationData, ShaperCalibrate
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MAX_TITLE_LENGTH=65
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def parse_log(logname):
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with open(logname) as f:
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for header in f:
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@ -61,7 +64,7 @@ def calibrate_shaper(datas, csv_output):
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# Plot frequency response and suggested input shapers
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######################################################################
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def plot_freq_response(calibration_data, shapers_vals,
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def plot_freq_response(lognames, calibration_data, shapers_vals,
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selected_shaper, max_freq):
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freqs = calibration_data.freq_bins
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psd = calibration_data.psd_sum[freqs <= max_freq]
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@ -83,10 +86,8 @@ def plot_freq_response(calibration_data, shapers_vals,
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ax.plot(freqs, py, label='Y', color='green')
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ax.plot(freqs, pz, label='Z', color='blue')
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if shapers_vals:
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ax.set_title("Frequency response and shapers")
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else:
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ax.set_title("Frequency response")
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title = "Frequency response and shapers (%s)" % (', '.join(lognames))
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ax.set_title("\n".join(wrap(title, MAX_TITLE_LENGTH)))
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ax.xaxis.set_minor_locator(matplotlib.ticker.AutoMinorLocator())
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ax.yaxis.set_minor_locator(matplotlib.ticker.AutoMinorLocator())
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ax.xaxis.set_minor_locator(matplotlib.ticker.AutoMinorLocator())
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@ -94,23 +95,25 @@ def plot_freq_response(calibration_data, shapers_vals,
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ax.ticklabel_format(axis='y', style='scientific', scilimits=(0,0))
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ax.grid(which='major', color='grey')
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ax.grid(which='minor', color='lightgrey')
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ax.legend(loc='upper right', prop=fontP)
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if shapers_vals:
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ax2 = ax.twinx()
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ax2.set_ylabel('Shaper vibration reduction (ratio)')
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best_shaper_vals = None
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for name, freq, vals in shapers_vals:
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label = "%s (%.1f Hz)" % (name.upper(), freq)
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linestyle = 'dotted'
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if name == selected_shaper:
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label += ' (selected)'
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linestyle = 'dashdot'
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best_shaper_vals = vals
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ax2.plot(freqs, vals, label=label, linestyle=linestyle)
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ax.plot(freqs, psd * best_shaper_vals,
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label='After\nshaper', color='cyan')
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ax2.legend(loc='upper left', prop=fontP)
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ax2 = ax.twinx()
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ax2.set_ylabel('Shaper vibration reduction (ratio)')
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best_shaper_vals = None
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for name, freq, vals in shapers_vals:
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label = "%s (%.1f Hz)" % (name.upper(), freq)
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linestyle = 'dotted'
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if name == selected_shaper:
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linestyle = 'dashdot'
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best_shaper_vals = vals
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ax2.plot(freqs, vals, label=label, linestyle=linestyle)
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ax.plot(freqs, psd * best_shaper_vals,
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label='After\nshaper', color='cyan')
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# A hack to add a human-readable shaper recommendation to legend
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ax2.plot([], [], ' ',
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label="Recommended shaper: %s" % (selected_shaper.upper()))
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ax.legend(loc='upper left', prop=fontP)
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ax2.legend(loc='upper right', prop=fontP)
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fig.tight_layout()
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return fig
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@ -152,7 +155,7 @@ def main():
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# Draw graph
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setup_matplotlib(options.output is not None)
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fig = plot_freq_response(calibration_data, shapers_vals,
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fig = plot_freq_response(args, calibration_data, shapers_vals,
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selected_shaper, options.max_freq)
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# Show graph
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@ -12,10 +12,20 @@ sys.path.append(os.path.join(os.path.dirname(os.path.realpath(__file__)),
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'..', 'klippy', 'extras'))
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from shaper_calibrate import ShaperCalibrate
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MAX_TITLE_LENGTH=80
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MAX_TITLE_LENGTH=65
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def parse_log(logname):
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return np.loadtxt(logname, comments='#', delimiter=',')
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def parse_log(logname, opts):
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with open(logname) as f:
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for header in f:
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if not header.startswith('#'):
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break
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if not header.startswith('freq,psd_x,psd_y,psd_z,psd_xyz'):
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# Raw accelerometer data
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return np.loadtxt(logname, comments='#', delimiter=',')
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# Power spectral density data or shaper calibration data
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opts.error("File %s does not contain raw accelerometer data and therefore "
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"is not supported by graph_accelerometer.py script. Please use "
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"calibrate_shaper.py script to process it instead." % (logname,))
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######################################################################
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# Raw accelerometer graphing
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@ -185,7 +195,7 @@ def setup_matplotlib(output):
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def main():
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# Parse command-line arguments
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usage = "%prog [options] <logs>"
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usage = "%prog [options] <raw logs>"
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opts = optparse.OptionParser(usage)
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opts.add_option("-o", "--output", type="string", dest="output",
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default=None, help="filename of output graph")
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@ -205,7 +215,7 @@ def main():
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opts.error("Incorrect number of arguments")
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# Parse data
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datas = [parse_log(fn) for fn in args]
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datas = [parse_log(fn, opts) for fn in args]
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setup_matplotlib(options.output)
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@ -215,6 +225,8 @@ def main():
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if options.compare:
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opts.error("comparison mode is not supported with csv output")
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if options.specgram:
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if len(args) > 1:
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opts.error("Only 1 input is supported in specgram mode")
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pdata, bins, t = calc_specgram(datas[0], options.axis)
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write_specgram(pdata, bins, t, options.output)
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else:
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@ -223,8 +235,12 @@ def main():
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# Draw graph
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if options.raw:
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if len(args) > 1:
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opts.error("Only 1 input is supported in raw mode")
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fig = plot_accel(datas[0], args[0])
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elif options.specgram:
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if len(args) > 1:
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opts.error("Only 1 input is supported in specgram mode")
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fig = plot_specgram(datas[0], args[0], options.max_freq, options.axis)
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elif options.compare:
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fig = plot_compare_frequency(datas, args, options.max_freq)
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