def main(fname=None, outname=None):
assert fname
assert outname
tcx = TCX(src=fname)
time_position_sequence = [(parse_time(p), Position(*parse_position(p))) for p in tcx.position_points]
fig1 = plt.figure()
ax_locs = fig1.add_subplot(111)
t = [dates.date2num(tp[0]) for tp in time_position_sequence]
alt = [tp[1].altitude for tp in time_position_sequence]
ax_locs.plot_date(t, alt, fmt='b-')
fig1.savefig(outname)
def main(fname=None, outname=None):
assert fname
assert outname
tcx = TCX(src=fname)
time_position_sequence = ((parse_time(p), Position(*parse_position(p))) for p in tcx.position_points)
time_speed_sequence = [(p2[0], speed_miles(p1, p2)) for p1, p2 in pairwise(time_position_sequence) if p1[0] != p2[0]]
fig1 = plt.figure()
ax_locs = fig1.add_subplot(111)
t = [dates.date2num(tp[0]) for tp in time_speed_sequence]
speed = [tp[1] for tp in time_speed_sequence]
ax_locs.plot_date(t, speed, fmt='b-')
fig1.savefig(outname)
def main(fname=None, outname=None):
assert fname
assert outname
tcx = TCX(src=fname)
time_hr_sequence = [(parse_time(p), parse_heart_rate(p)) for p in tcx.position_points]
fig1 = plt.figure()
ax = fig1.add_subplot(111)
t = [dates.date2num(tp[0]) for tp in time_hr_sequence]
hr = [tp[1] for tp in time_hr_sequence]
ax.plot_date(t, hr, fmt='b-')
ax.set_ylim(140, 200)
fig1.savefig(outname)
