sf-mx/PBSwissMX
0
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
dd408e69565e27d92d5b298bb621eb0b6e2b6c34
PBSwissMX/python/shapepath.py

653 lines
34 KiB
Python
Executable File
Raw Blame History

#!/usr/bin/env python
# *-----------------------------------------------------------------------*
# | |
# | Copyright (c) 2016 by Paul Scherrer Institute (http://www.psi.ch) |
# | |
# | Author Thierry Zamofing (thierry.zamofing@psi.ch) |
# *-----------------------------------------------------------------------*
'''
shape an optimal path with given points
verbose bits:
1 basic info
2 plot sorting steps
4 list program
4 upload progress
8 plot gather path
Gather motor order
"Motor[3].ActPos","Motor[2].ActPos","Motor[1].ActPos","Motor[3].DesPos","Motor[2].DesPos","Motor[1].DesPos")
ACT DES
motors RY FX FY RY FX FY
3 2 1 3 2 1
Mot 1: Stage Y Parker MX80L D11 25mm one pole cycle = 13mm = 2048 phase_step
Mot 2: Stage X Parker MX80L D11 25mm one pole cycle = 13mm = 2048 phase_step
Mot 3: Rotation stage LS Mecapion MDM-DC06DNC0H 32 poles = 1 rev = 16*2048=32768 phase_step
Mot 4: Stage X Stada Stepper 670mA 200 poles 1 rev = 100*2048 phase_step (2 stepper motor)
Mot 5: Stage Z Stada Stepper 670mA 200 poles 1 rev = 100*2048 phase_step (2 stepper motor)
Enc 6: Interferometer Y
Enc 7: Interferometer X
'''
from __future__ import print_function
import os, sys, time
import numpy as np
import matplotlib as mpl
import matplotlib.pyplot as plt
import subprocess as sprc
sys.path.insert(0,os.path.expanduser('~/Documents/prj/SwissFEL/PBTools/'))
#sys.path.insert(0,'/sf/bernina/config/swissmx/zamofing_t')
#sys.path.insert(0,'/sf/bernina/config/swissmx/zamofing_t/pbtools/misc/')
from pbtools.misc.pp_comm import PPComm
from pbtools.misc.gather import Gather
from MXMotion import MotionBase
class ShapePath(MotionBase):
def __init__(self,comm, gather, verbose):
MotionBase.__init__(self,comm, gather, verbose)
def gen_swissmx_points(self,scale=10):
'generathe a path that writes swissfel'
#string from inkscape path of the drawing
d="m 524.7061,637.31536 3.54883,0 3.54882,0 3.54883,0 0,-4.20801 0,-4.20801 0,-4.208 0,-4.20801 4.22949,0 4.22949,0 4.2295,0 4.22949,0 0,-3.55957 0,-3.55957 0,-3.55957 0,-3.55957 -4.22949,0 -4.2295,0 -4.22949,0 -4.22949,0 0,-4.22949 0,-4.2295 0,-4.22949 0,-4.22949 -3.54883,0 -3.54882,0 -3.54883,0 -3.54883,0 0,4.22949 0,4.22949 0,4.2295 0,4.22949 -4.20752,0 -4.20752,0 -4.20752,0 -4.20752,0 0,3.55957 0,3.55957 0,3.55957 0,3.55957 4.20752,0 4.20752,0 4.20752,0 4.20752,0 0,4.20801 0,4.208 0,4.20801 0,4.20801 -11.87126,0.36152 -12.12171,-0.13934 -2.52941,3.93977 -2.57238,3.94369 -2.50854,3.88614 -2.50731,3.91767 -2.49035,3.88268 -2.50987,3.91244 -2.50453,3.88732 -2.51897,3.9189 -6.39782,5.72802 -6.63782,6.70894 -3.21517,5.11464 -3.3404,5.32333 -3.08995,5.11464 -3.17343,5.15637 -16.69223,0.0698 5.55908,0 5.55909,0 5.55908,0 3.18604,-5.17432 3.18603,-5.17431 3.18604,-5.17432 3.18603,-5.17431 3.17481,5.17431 3.1748,5.17432 3.17481,5.17431 3.1748,5.17432 5.59229,0 5.59228,0 5.59229,0 5.59228,0 -2.74121,-4.15283 -2.74121,-4.15283 -2.74121,-4.15283 -2.74121,-4.15284 -2.74122,-4.15283 -2.74121,-4.15283 -2.74121,-4.15283 -2.74121,-4.15283 2.50488,-3.90015 2.50489,-3.90015 2.50488,-3.90014 2.50488,-3.90015 2.50488,-3.90015 2.50489,-3.90015 2.50488,-3.90014 2.50488,-3.90015 -5.42724,0 -5.42725,0 -5.42724,0 -5.42725,0 -2.76855,4.95508 -2.76856,4.95508 -2.76855,4.95508 -2.76856,4.95508 -2.85644,-4.95508 -2.85645,-4.95508 -2.85644,-4.95508 -2.85645,-4.95508 -5.48193,0 -5.48194,0 -5.48194,0 -5.48193,0 2.52686,3.8562 2.52685,3.8562 2.52686,3.8562 2.52686,3.85621 2.52685,3.8562 2.52686,3.8562 2.52685,3.8562 2.52686,3.8562 -2.77954,4.19678 -2.77954,4.19678 -2.77954,4.19677 -2.77955,4.19678 -2.77954,4.19678 -2.77954,4.19678 -2.77954,4.19677 -2.77954,4.19678 -4.91638,0 -4.91638,0 -4.91639,0 -4.91638,0 -4.91638,0 -4.91638,0 -4.91638,0 -4.91638,0 -4.91639,0 -4.91638,0 -4.91638,0 -4.91638,0 -4.91638,0 -4.91639,0 -4.91638,0 -4.91638,0 4.07568,0 4.07568,0 4.07569,0 4.07568,0 0,-6.14136 0,-6.14135 0,-6.14136 0,-6.14136 0,-6.14136 0,-6.14135 0,-6.14136 0,-6.14136 1.57105,6.14136 1.57104,6.14136 1.57104,6.14135 1.57105,6.14136 1.57105,6.14136 1.57104,6.14136 1.57104,6.14135 1.57105,6.14136 3.68066,0 3.68067,0 3.68067,0 3.68066,0 1.57642,-6.14136 1.57641,-6.14135 1.57642,-6.14136 1.57641,-6.14136 1.57642,-6.14136 1.57642,-6.14135 1.57641,-6.14136 1.57642,-6.14136 0,6.14136 0,6.14136 0,6.14135 0,6.14136 0,6.14136 0,6.14136 0,6.14135 0,6.14136 4.06494,0 4.06494,0 4.06494,0 4.06494,0 0,-8.05298 0,-8.05298 0,-8.05298 0,-8.05297 0,-8.05298 0,-8.05298 0,-8.05298 0,-8.05298 -6.52588,0 -6.52588,0 -6.52587,0 -6.52588,0 -1.25781,4.8999 -1.25782,4.89991 -1.25781,4.8999 -1.25781,4.8999 -1.25781,4.8999 -1.25782,4.89991 -1.25781,4.8999 -1.25781,4.8999 -1.26343,-4.8999 -1.26343,-4.8999 -1.26343,-4.89991 -1.26343,-4.8999 -1.26342,-4.8999 -1.26343,-4.8999 -1.26343,-4.89991 -1.26343,-4.8999 -6.54785,0 -6.54785,0 -6.54785,0 -6.54785,0 0,8.05298 0,8.05298 0,8.05298 0,8.05298 0,8.05297 0,8.05298 0,8.05298 -4.25755,8.13646 -8.40743,0.19687 -8.40743,0.19687 -8.40743,0.19687 -8.40743,0.19687 5.93521,0.22812 8.09742,-0.56079 6.18579,-1.6814 4.55883,-2.66919 3.13062,-3.43823 1.84571,-3.87866 0.61523,-3.98853 -0.58179,-3.83373 -1.74634,-3.50416 -2.802,-2.95581 -3.83472,-2.18676 -5.49316,-1.60401 -7.77832,-1.20849 -7.64649,-1.58204 -1.75781,-2.59179 1.36328,-2.59375 4.4375,-1.09766 5.09766,1.40625 2.19727,3.29492 4.24072,-0.41748 4.24073,-0.41748 4.24072,-0.41748 4.24072,-0.41748 -1.98804,-4.09741 -2.44946,-3.15259 -2.97778,-2.3291 -3.65894,-1.62598 -5.05371,-0.95629 -7.25098,-0.3191 -7.10766,0.41748 -5.50367,1.25244 -4.19677,2.05494 -3.18604,2.91186 -2.01099,3.65796 -0.67065,4.29517 0.61523,3.98852 1.84571,3.5271 2.78002,2.823 3.32935,1.87817 5.06421,1.42822 7.89868,1.56006 7.69141,1.84571 2.02148,2.98828 -1.53906,2.85742 -5.58008,1.53711 -5.27344,-1.36133 -3.07617,-4.52734 -4.43847,0.41748 -4.43848,0.41748 -4.43848,0.41748 -4.43847,0.41748 2.50488,5.95459 4.43848,4.4165 3.18313,1.59592 4.10031,1.14017 -3.65979,0.0939 -5.9713,6e-5 -5.97131,5e-5 -5.9713,6e-5 -5.9713,6e-5 -5.9713,5e-5 -5.97131,6e-5 -5.9713,5e-5 -5.9713,6e-5 5.34491,0.81842 8.09742,-0.56079 6.18579,-1.6814 4.55883,-2.66919 3.13062,-3.43823 1.84571,-3.87866 0.61523,-3.98853 -0.58179,-3.83373 -1.74634,-3.50416 -2.802,-2.95581 -3.83472,-2.18676 -5.49316,-1.60401 -7.77832,-1.20849 -7.64649,-1.58204 -1.75781,-2.59179 1.36328,-2.59375 4.4375,-1.09766 5.09766,1.40625 2.19727,3.29492 4.24072,-0.41748 4.24073,-0.41748 4.24072,-0.41748 4.24072,-0.41748 -1.98804,-4.09741 -2.44946,-3.15259 -2.97778,-2.3291 -3.65894,-1.62598 -5.05371,-0.95629 -7.25098,-0.3191 -7.10766,0.41748 -5.50367,1.25244 -4.19677,2.05494 -3.18604,2.91186 -2.01099,3.65796 -0.67065,4.29517 0.61523,3.98852 1.84571,3.5271 2.78002,2.823 3.32935,1.87817 5.06421,1.42822 7.89868,1.56006 7.69141,1.84571 2.02148,2.98828 -1.53906,2.85742 -5.58008,1.53711 -5.27344,-1.36133 -3.07617,-4.52734 -4.43847,0.41748 -4.43848,0.41748 -4.43848,0.41748 -4.43847,0.41748 2.50488,5.95459 4.43848,4.4165 3.18313,1.59592 4.10031,1.14017 -3.06953,-0.0416 -3.06952,-0.0416 -8.58102,-0.0261 -10.12782,-0.0261 -7.03422,-0.0261 -8.58102,-0.0261 4.47168,0 6.6151,0 2.32826,0 4.47168,0 0,-5.83374 0,-5.83374 0,-5.83374 0,-5.83374 0,-5.83374 0,-5.83374 0,-5.83374 0,-5.83374 -4.47168,0 -4.47168,0 -4.47168,0 0,-5.5796 4.47168,0 4.47168,0 4.47168,0 0,-6.08691 0,-6.08692 -4.47168,0 -4.47168,0 -4.47168,0 -4.47168,0 0,6.08692 0,6.08691 0,5.5796 0,5.83374 0,5.83374 0,5.83374 0,5.83374 0,5.83374 0,5.83374 0,5.83374 -3.67318,5.83374 -8.7308,0 -10.73079,0 -6.7308,0 -9.10563,0 -2.25201,0.007 -8.72971,0.0266 -7.53755,-0.0442 -9.68477,0.0107 -6.3443,0 3.99902,0 3.99902,0 3.99903,0 3.99902,0 2.28516,-7.02002 2.28516,-7.02002 2.28516,-7.02002 2.28516,-7.02002 2.36181,7.02002 2.36182,7.02002 2.36181,7.02002 2.36182,7.02002 3.97705,0 3.97705,0 3.97705,0 3.97705,0 2.14795,-5.83374 2.14795,-5.83374 2.14795,-5.83374 2.14795,-5.83374 2.14795,-5.83374 2.14795,-5.83374 2.14795,-5.83374 2.14795,-5.83374 -4.2959,0 -4.2959,0 -4.2959,0 -4.2959,0 -0.93921,3.67505 -0.93921,3.67505 -0.93921,3.67505 -0.93921,3.67505 -0.9392,3.67504 -0.93921,3.67505 -0.93921,3.67505 -0.93921,3.67505 -1.23047,-3.67505 -1.23047,-3.67505 -1.23047,-3.67505 -1.23047,-3.67504 -1.23046,-3.67505 -1.23047,-3.67505 -1.23047,-3.67505 -1.23047,-3.67505 -4.03223,0 -4.03222,0 -4.03223,0 -4.03223,0 -1.18652,3.67505 -1.18653,3.67505 -1.18652,3.67505 -1.18653,3.67505 -1.18652,3.67504 -1.18652,3.67505 -1.18653,3.67505 -1.18652,3.67505 -0.93921,-3.67505 -0.93921,-3.67505 -0.93921,-3.67505 -0.93921,-3.67504 -0.9392,-3.67505 -0.93921,-3.67505 -0.93921,-3.67505 -0.93921,-3.67505 -4.32862,0 -4.32861,0 -4.32862,0 -4.32861,0 2.16431,5.83374 2.1643,5.83374 2.16431,5.83374 2.16431,5.83374 2.16431,5.83374 2.1643,5.83374 2.16431,5.83374 -3.84635,5.83374 -5.60781,0.003 -5.6078,0.003 -5.60781,0.003 -5.6078,0.003 -5.4839,-1.59358 0,0 5.47119,-3.35034 4.10888,-4.60278 2.5708,-5.4712 0.85694,-5.95459 -0.64868,-5.02123 -1.94507,-4.51587 -3.32837,-3.91114 -4.88843,-3.20801 -7.482173,-2.87842 -5.1337,-1.42273 -6.06186,-1.41174 -6.67969,-2.37304 -1.44922,-2.76758 1.75782,-3.56055 5.22851,-1.49414 6.5918,1.97852 1.99951,2.5708 1.16455,3.75732 4.69141,-0.2749 4.691403,-0.2749 4.6914,-0.27491 4.69141,-0.2749 -0.94483,-4.66918 -1.604,-3.98804 -2.26318,-3.30688 -2.92236,-2.62574 -3.59802,-2.01858 -4.334103,-1.44162 -5.0702,-0.86484 -5.80627,-0.28824 -4.76547,0.1593 -4.23282,0.47791 -6.86695,1.91162 -5.04223,2.98828 -3.61401,3.95507 -2.14283,4.53687 -0.7146,4.82251 1.40625,6.88892 4.21875,5.54858 3.26035,2.31812 4.19986,2.07641 5.13919,1.83472 6.07834,1.59302 6.54785,1.81226 3.64746,1.92211 2.19727,4.48242 -2.33008,4.65821 -6.54688,1.97851 -5.05371,-0.97827 -3.73535,-2.93384 -1.57153,-2.9663 -0.93433,-4.06495 -4.73486,0.29688 -4.73487,0.29687 -4.73486,0.29688 -4.73486,0.29687 0.76065,4.6637 1.44711,4.23523 2.13376,3.80676 2.82059,3.3783 3.79577,2.76855 5.0592,1.97754 6.32264,1.18652 7.58606,0.39551 9.481626,-0.95145 -7.224723,-0.043 -7.224724,-0.043 -7.224723,-0.043 -7.224723,-0.043 -7.224723,-0.043 -7.224723,-0.043 -7.224724,-0.043 -7.224723,-0.043"
d=d.split()
pts=np.ndarray((len(d)-1,2),dtype=np.float)
for i in xrange(pts.shape[0]):
pts[i,:]=map(float,d[i+1].split(','))
pts[0,:]=(5,0)
pts=pts.cumsum(0)
pts[:,1]=-pts[:,1]
pts*=scale
self.points=pts
verb=self.verbose
if verb&2:
self.plot_points(pts)
plt.show()
def gen_swissfel_points(self,scale=10):
'generathe a path that writes swissfel'
#string from inkscape path of the drawing
d="m 15.801613,951.54022 -1.655274,-0.17578 -1.809082,-0.52002 0,-1.52344 1.765137,0.76172 1.699219,0.25635 1.955566,-0.49805 0.688477,-1.4209 -0.498047,-1.25976 -1.618652,-0.68115 -0.900879,-0.17578 -1.426392,-0.42298 -0.968628,-0.60974 -0.739746,-1.95557 0.254516,-1.29638 0.76355,-0.98877 1.217652,-0.62622 1.602173,-0.20874 1.567383,0.13916 1.6333,0.41748 0,1.44287 -1.589355,-0.60059 -1.442871,-0.19775 -1.071167,0.11719 -0.796509,0.35156 -0.651856,1.33301 0.432129,1.09863 1.655274,0.59326 0.893555,0.18311 1.437377,0.43579 1.001587,0.67749 0.593262,0.92651 0.197754,1.19751 -0.267334,1.3971 -0.802002,1.01257 -1.311035,0.61523 2.995605,-0.004 2.995606,-0.004 -0.536499,-2.05078 -0.536499,-2.05078 -0.536499,-2.05079 -0.536499,-2.05078 1.347656,0 0.421142,1.60034 0.421143,1.60034 0.421143,1.60035 0.421142,1.60034 0.419312,-1.60034 0.419311,-1.60035 0.419312,-1.60034 0.419311,-1.60034 1.589356,0 0.421142,1.60034 0.421143,1.60034 0.421143,1.60035 0.421142,1.60034 0.419312,-1.60034 0.419311,-1.60035 0.419312,-1.60034 0.419311,-1.60034 1.347657,0 -0.536499,2.05078 -0.5365,2.05079 -0.536499,2.05078 -0.536499,2.05078 -1.589355,0 -0.441284,-1.68091 -0.441285,-1.68091 -0.441284,-1.6809 -0.441284,-1.68091 -0.443115,1.68091 -0.443116,1.6809 -0.443115,1.68091 -0.443115,1.68091 2.330933,-8e-5 2.330933,-8e-5 2.330932,-8e-5 2.330933,-8e-5 0,-2.05078 0,-2.05078 0,-2.05079 0,-2.05078 0.673828,-1.48681 0.673828,0 0,-0.85327 0,-0.85327 -0.673828,0 -0.673828,0 0,0.85327 0,0.85327 0.673828,1.48681 0.673828,0 0,2.05078 0,2.05079 0,2.05078 0,2.05078 2.545166,0.1062 2.545166,0.1062 -1.376953,-0.13183 -1.501465,-0.38086 0,-1.3916 1.472168,0.58593 1.435547,0.19043 1.464844,-0.32226 0.512695,-0.92285 -0.373535,-0.84229 -1.038789,-0.41935 -1.048614,-0.25448 -1.078491,-0.33325 -0.730591,-0.47241 -0.55664,-1.50147 0.205078,-1.02539 0.615234,-0.76172 0.99243,-0.47241 1.336672,-0.15747 1.40625,0.10986 1.21582,0.32959 0,1.27442 -1.186523,-0.43946 -1.274414,-0.14648 -1.508789,0.30762 -0.498047,0.92285 0.358886,0.73975 0.763094,0.30189 0.76857,0.22893 0.785513,0.20842 0.813927,0.24037 0.809326,0.49988 0.455932,0.66833 0.151978,0.89173 -0.227051,1.02355 -0.681152,0.78553 -1.071167,0.49988 3.205262,0.0833 3.205261,0.0833 -1.376953,-0.13183 -1.501465,-0.38086 0,-1.3916 1.472168,0.58593 1.435547,0.19043 1.464843,-0.32226 0.512696,-0.92285 -0.373536,-0.84229 -1.038789,-0.41935 -1.048613,-0.25448 -1.078491,-0.33325 -0.730591,-0.47241 -0.556641,-1.50147 0.205078,-1.02539 0.615235,-0.76172 0.99243,-0.47241 1.336672,-0.15747 1.40625,0.10986 1.21582,0.32959 0,1.27442 -1.186524,-0.43946 -1.274414,-0.14648 -1.508789,0.30762 -0.498047,0.92285 0.358887,0.73975 0.805073,0.3095 0.76935,0.22988 0.764915,0.20509 0.791765,0.23514 0.809327,0.49988 0.455932,0.66833 0.151978,0.89173 -0.227051,1.02355 -0.681152,0.78553 -1.071167,0.49988 2.095642,-0.0229 2.095642,-0.0229 0,-1.36688 0,-1.36688 0,-1.36689 0,-1.36688 0,-1.36688 0,-1.36688 0,-1.36689 0,-1.36688 1.571045,0 1.571045,0 1.571045,0 1.571045,0 0,1.24512 -1.201172,0 -1.201172,0 -1.201172,0 -1.201172,0 0,0.80566 0,0.80567 0,0.80566 0,0.80566 1.083984,0 1.083985,0 1.083984,0 1.083985,0 0,1.24512 -1.083985,0 -1.083984,0 -1.083985,0 -1.083984,0 0,1.30554 0,1.30555 0,1.30554 0,1.30554 3.581543,0 3.581543,0 0,-1.36688 0,-1.36688 0,-1.36689 0,-1.36688 0,-1.36688 0,-1.36688 0,-1.36689 0,-1.36688 1.728516,0 1.728516,0 1.728515,0 1.728516,0 0,1.24512 -1.358643,0 -1.358642,0 -1.358643,0 -1.358643,0 0,0.80932 0,0.80933 0,0.80933 0,0.80932 1.30188,0 1.30188,0 1.30188,0 1.30188,0 0,1.24512 -1.30188,0 -1.30188,0 -1.30188,0 -1.30188,0 0,0.9906 0,0.9906 0,0.9906 0,0.9906 1.391602,0 1.391601,0 1.391602,0 1.391602,0 0,1.24512 -3.587581,3.8e-4 -1.964972,0 3.702844,0 4.295998,0 0,-1.36733 0,-1.36688 0,-1.36689 0,-1.36688 0,-1.36688 0,-1.36689 0,-1.36688 0,-1.36688 1.479492,0 0,1.21124 0,1.21124 0,1.21125 0,1.21124 0,1.21124 0,1.21124 0,1.21125 0,1.21124 1.331177,0 1.331177,0 1.331176,0 1.331177,0 0,1.24512 -1.70105,0 -1.701049,0 -1.70105,0"
d=d.split()
pts=np.ndarray((len(d)-1,2),dtype=np.float)
for i in xrange(pts.shape[0]):
pts[i,:]=map(float,d[i+1].split(','))
pts[0,:]=(5,0)
pts=pts.cumsum(0)
pts[:,1]=-pts[:,1]
pts*=scale
self.points=pts
verb=self.verbose
if verb&2:
self.plot_points(pts)
plt.show()
def gen_rand_points(self,n=107,scale=1000):
'generate random distributed points'
np.random.seed(0)
#data=np.random.randint(0,1000,(30,2))
pts=np.random.rand(n,2)*scale
self.points=pts
def gen_grid_points(self,w=10,h=10,pitch=100,rnd=.2):
'generates points in a grid with a given pitch and a bit randomness'
np.random.seed(0)
xx,yy=np.meshgrid(range(w), range(h))
pts=np.array([xx.reshape(-1),yy.reshape(-1)],dtype=np.float).transpose()*pitch
if rnd != 0:
pts+=(np.random.rand(pts.shape[0],2)*(rnd*pitch))
pts[:,0]+=500
self.points=pts
def opt_pts(self,fn):
'''
trial to optimize path by mofing trajectory, uload real path and move the points
to finally go trough the desired points
'''
fh=np.load(fn)
#res=rot.ActPos,x.ActPos,y.ActPos,rot.DesPos,x.DesPos,y.DesPos
#idx 0 1 2 3 4 5
rec=fh['rec']
pts=fh['pts']
desPos=rec[:,4:6]
idx=np.ndarray(shape=len(pts),dtype=np.int32)
for i in range(len(pts)):
l=desPos-pts[i,:]
l2=l[:,0]**2+l[:,1]**2
idx[i]=np.argmin(l2)
recPts=rec[idx,:]
ptsCorr=(pts-recPts[:,1:3]+recPts[:,4:6])
self.points=pts
self.ptsCorr=ptsCorr
print(ptsCorr)
def setup_gather(self,acq_per=1):
'''
setup the channels to gather
kwargs:
acq_per : acquire period: acquire data all acq_per servo loops (default=1)
'''
comm=self.comm
gt=self.gather
gt.set_phasemode(False)
gt.set_address("Motor[3].ActPos","Motor[2].ActPos","Motor[1].ActPos","Motor[3].DesPos","Motor[2].DesPos","Motor[1].DesPos")
gt.set_property(MaxSamples=1000000, Period=acq_per)
ServoPeriod= .2 #0.2ms #Sys.ServoPeriod is dependent of !common() macro
#ServoPeriod=comm.gpascii.servo_period
self.meta = {'timebase': ServoPeriod*acq_per}
def setup_coord_trf(self):
comm = self.comm
gpascii = comm.gpascii
prg = '''&1a
#1-> Y
#2-> X
#3-> A
#4->0
#5->0
#6->0
#7->0
#8->0
#1..8j/
'''
gpascii.send_block(prg)
def setup_motion(self,prgId=2,fnPrg=None,mode=0,**kwargs):
'''
1. generates program <prgId> and saves to fnPrg
the type of generated program is defined by <mode>
2. runs the program on the deltatau
kwargs:
acq_per : acquire period: acquire data all acq_per servo loops (default=1)
pt2pt_time : time to move from one point to the next point
'''
prg=['close all buffers','open prog %d'%(prgId)]
comm=self.comm
gpascii=comm.gpascii
# this uses Coord[1].Tm and limits with MaxSpeed
if mode==-1: #### jog a 10mm square
pos=self.points
prg.append(' linear abs')
prg.append('X(%g) Y(%g)' % tuple(pos[0, :]))
prg.append('dwell 10')
prg.append('Gather.Enable=2')
prg.append('jog2:10000')
prg.append('dwell 100')
prg.append('jog3:10000')
prg.append('dwell 100')
prg.append('jog2:-10000')
prg.append('dwell 100')
prg.append('jog3:-10000')
prg.append('dwell 100')
prg.append('Gather.Enable=0')
elif mode==0: #### linear motion
pos=self.points
prg.append(' linear abs')
prg.append('X(%g) Y(%g)' % tuple(pos[0, :]))
prg.append('dwell 10')
prg.append('Gather.Enable=2')
prg.append(' linear abs')
for idx in range(pos.shape[0]):
prg.append('X%g Y%g'%tuple(pos[idx,:]))
prg.append('dwell 100')
prg.append('Gather.Enable=0')
elif mode==1: #### pvt motion
try:
pt2pt_time=kwargs['pt2pt_time'] #how many ms to move to next point (pt2pt_time)
except KeyError:
print('missing pt2pt_time, use default=100ms')
pt2pt_time=100.
try:
cnt=kwargs['cnt'] #move path multiple times
except KeyError:
cnt=1
try:
pt=self.ptsCorr
except AttributeError:
pt=self.points
vel=pt[2:,:]-pt[:-2,:]
#pv is an array of posx posy velx vely
pv=np.ndarray(shape=(pt.shape[0]+2,4),dtype=pt.dtype)
pv[:]=np.NaN
#pv[ 0,(0,1)]=2*pt[0,:]-pt[1,:]
pv[ 0,(0,1)]=pt[0,:]
pv[ 1:-1,(0,1)]=pt
#pv[ -1,(0,1)]=2*pt[-1,:]-pt[-2,:]
pv[ -1,(0,1)]=pt[-1,:]
pv[(0,0,-1,-1),(2,3,2,3)]=0
dist=pv[2:,(0,1)] - pv[:-2,(0,1)]
pv[ 1:-1,(2,3)] = 1000.*dist/(2.*pt2pt_time)
prg.append(' linear abs')
prg.append('X%g Y%g' % tuple(pv[0, (0,1)]))
prg.append('dwell 10')
try: prg.extend(self.sync_prg.split('\n'))
except AttributeError:
#print('no sync code available')
pass
prg.append('Gather.Enable=2')
if cnt>1:
prg.append('P100=%d'%cnt)
prg.append('N100:')
prg.append(' pvt%g abs'%pt2pt_time) #100ms to next position
for idx in range(1,pv.shape[0]):
prg.append('X%g:%g Y%g:%g'%tuple(pv[idx,(0,2,1,3)]))
prg.append('X%g Y%g' % tuple(pv[-1, (0,1)]))
if cnt>1:
prg.append('dwell 10')
prg.append('P100=P100-1')
prg.append('if(P100>0)')
prg.append('{')
prg.append(' linear abs')
prg.append('X%g Y%g' % tuple(pv[0, (0,1)]))
prg.append('dwell 100')
prg.append('goto 100')
prg.append('}')
else:
prg.append('dwell 1000')
prg.append('Gather.Enable=0')
elif mode==2: #### spline motion
try:
pt2pt_time=kwargs['pt2pt_time'] #how many ms to move to next point (pt2pt_time)
except KeyError:
print('missing pt2pt_time, use default=100ms')
pt2pt_time=100.
pos=self.points
pcor=np.ndarray(pos.shape,dtype=pos.dtype);pcor[:]=np.NaN
pcor[(0,-1),:]=pos[(0,-1),:]
pcor[1:-1,:]=(-pos[0:-2,:]+8*pos[1:-1,:]-pos[2:,:])/6.
#pcor=pos
prg.append(' linear abs')
prg.append('X(%g) Y(%g)' % tuple(pcor[0, :]))
prg.append('dwell 10')
prg.append('Gather.Enable=2')
prg.append(' spline%g abs'%pt2pt_time) #100ms to next position
for idx in range(pcor.shape[0]):
prg.append('X%g Y%g'%tuple(pcor[idx,:]))
prg.append('dwell 100')
prg.append('Gather.Enable=0')
prg.append('close')
#prg.append('&1\nb%dr\n'%prgId)
if self.verbose & 4:
for ln in prg:
print(ln)
if fnPrg is not None:
fh=open(fnPrg,'w')
fh.write('\n'.join(prg))
fh.close()
gpascii.send_block(prg)
#if self.host is not None:
# cmd ='gpasciiCommander --host '+self.host+' '+ fnPrg
# print(cmd)
# p = sprc.Popen(cmd, shell=True)#, stdout=sprc.PIPE, stderr=sprc.STDOUT)
# #res=p.stdout.readlines(); print res
# retval = p.wait()
self.prg=prg
def gather_upload(self,fnRec=None):
gt=self.gather
gt.wait_stopped(verbose=True)
self.rec=rec=gt.upload()
pts=self.points
#rec=Motor[1].ActPos,Motor[2].ActPos,Motor[3].ActPos,Motor[1].DesPos,Motor[2].DesPos,Motor[3].DesPos
#res=rot.ActPos,x.ActPos,y.ActPos,rot.DesPos,x.DesPos,y.DesPos
#idx 0 1 2 3 4 5
ofsy=-rec[0,4]+pts[0,0]
ofsx=-rec[0,5]+pts[0,1]
rec[:,(1,4)]+=ofsy
rec[:,(2,5)]+=ofsx
if fnRec:
np.savez_compressed(fnRec, rec=rec, pts=pts, meta=self.meta)
def sort_points(self,xy=False,grp_sz=None):
pts=self.points
verb=self.verbose
cnt=pts.shape[0]
idx=np.ndarray(cnt,dtype=np.int32)
if grp_sz is None:
grp_cnt=int(np.sqrt(cnt))
grp_sz=int(np.ceil(float(cnt)/grp_cnt))
else:
grp_sz=int(grp_sz)
grp_cnt=int(np.ceil(float(cnt)/grp_sz))
if xy==True:
idxA=1;idxB=0
else:
idxA=0;idxB=1
#sort points along idxA
pts=pts[pts[:,idxA].argsort()]
#group sorting along idxB
for i in range(grp_cnt):
a=i*grp_sz
#print a,a+grp_sz
if i%2:
idx[a:a+grp_sz]=a+pts[a:a+grp_sz,idxB].argsort()[::-1]
else:
idx[a:a+grp_sz]=a+pts[a:a+grp_sz,idxB].argsort()
#print(idx)
pts=pts[idx]
if verb&2:
self.plot_points(pts)
plt.show()
self.points=pts
@staticmethod
def onclick(event):
print('button=%s, x=%d, y=%d, xdata=%f, ydata=%f'%(
event.button, event.x, event.y, event.xdata, event.ydata))
obj=event.canvas.figure.obj
def plot_points(self,pts):
fig=plt.figure()
ax = fig.add_subplot(1,1,1)
#hl=ax[0].plot(x, y, color=col)
hl=ax.plot(pts[:,0],pts[:,1],'r.')
hl=ax.plot(pts[:,0],pts[:,1],'y--')
cid = fig.canvas.mpl_connect('button_press_event', self.onclick)
fig.obj=self
plt.axis('equal')
self.ax=ax
self.hl=hl
def plot_gather(self):
try:
meta=self.meta
pts=self.points # X,Y array
rec = self.rec
except AttributeError as e:
print('plot_gather(): '+str(e)+': no data acquired yet')
return
fig=plt.figure()
ax = fig.add_subplot(1,1,1)
#hl=ax[0].plot(x, y, color=col)
hl=ax.plot(pts[:,0],pts[:,1],'r.')
hl=ax.plot(pts[:,0],pts[:,1],'y--')
hl = ax.plot(rec[:, 4], rec[:, 5], 'b-') # desired path
hl=ax.plot(rec[:,1],rec[:,2],'g-') # actual path
ax.xaxis.set_label_text('x-pos um')
ax.yaxis.set_label_text('y-pos um')
cid = fig.canvas.mpl_connect('button_press_event', self.onclick)
fig.obj=self
self.ax=ax
self.hl=hl
fig = plt.figure()
ax = fig.add_subplot(1, 1, 1)
errx=rec[:,1]-rec[:,4]
erry=rec[:,2]-rec[:,5]
err=np.sqrt(errx**2+erry**2)
hl = []
hl += ax.plot(errx, 'b-',label='x-error')
hl += ax.plot(erry, 'g-',label='y-error')
hl += ax.plot(err, 'r-',label='error')
ax.xaxis.set_label_text('datapoint (timebase: %g ms per data point)'%meta['timebase'])
ax.yaxis.set_label_text('pos-error um')
legend = ax.legend(loc='upper right', shadow=True)
print('average error x %g um, y %g um, %g um'%(np.abs(errx).mean(),np.abs(erry).mean(),err.mean()))
self.bode_plot(xy=(4,1),mode=31,db=True) # FX
self.bode_plot(xy=(5,2),mode=31,db=True) # FY
plt.show()
def bode_plot(self,xy=(0,1),mode=25,db=True):
'''displays a bode plot of the data
Y(s)=G(s)*X(s)
Y= output signal
X= input signal
xy are the row indexes of input and output signal
meta= meta information (dictionary) of data
mode bits: (+mean default)
+1: display time signal
2: display bode of X(s) signal
4: display bode of Y(s) signal
+8: display bode of G(s) signal
+16: clip frequencies out of minFrq,maxFrq
"Motor[3].ActPos","Motor[2].ActPos","Motor[1].ActPos","Motor[3].DesPos","Motor[2].DesPos","Motor[1].DesPos")
ACT DES
motors RY FX FY RY FX FY
3 2 1 3 2 1
'''
data=self.rec
strMot=('RY.act','FX.act','FY.act','RY.des','FX.des','FY.des')
ts=self.meta['timebase']*1E-3 #0.2ms
num=data.shape[0]
#rngMin=int(.01/ts);rngMax=int(num-1.001/ts) #0.01s from start 1.01 sec before end
rngMin=int(.01/ts);rngMax=rngMin+int((self.points.shape[0]-2)*.01/ts)
num=rngMax-rngMin
minFrq=1/(num*ts)#minimal frq to show bode
maxFrq=1/(2*ts) #maximal frq to show bode
xIdx,yIdx=xy
#remove DC value
x=data[rngMin:rngMax,xIdx]-data[rngMin,xIdx]
y=data[rngMin:rngMax,yIdx]-data[rngMin,yIdx]
#make last value same as first (nice periodicity)
x=x-(x[-1]*np.arange(num)/(num-1.))
y=y-(y[-1]*np.arange(num)/(num-1.))
if mode&1:
t = ts*np.arange(num)
fig=plt.figure('raw {}->{}'.format(strMot[xIdx],strMot[yIdx]))
ax=fig.gca()
ax.plot(t,x,'b')
ax.plot(t,y,'g')
fig=plt.figure('bode {}->{}'.format(strMot[xIdx],strMot[yIdx]))
ax1=fig.add_subplot(2,1,1)
ax1.grid(True)
ax1.yaxis.set_label_text('Amplitude'+ (' [dB]' if db else ''))
ax1.axvline(minFrq,c='k');ax1.axvline(maxFrq,c='k')
ax2=fig.add_subplot(2,1,2, sharex = ax1)
ax2.grid(True)
ax2.xaxis.set_label_text('Frequency [Hz]')
ax2.yaxis.set_label_text('Phase [degree]')
ftX=np.fft.rfft(x)
ftY=np.fft.rfft(y)
fMax=.5/ts #fs=1/ts, fMax=1/2fs
n=ftX.shape[0]
f=np.arange(n)*fMax/(n-1)
if mode&16:
i=int(minFrq*num*ts); j=int(maxFrq*num*ts); #print(w[i],w[j])
f=f[i:j+1]
ftX=ftX[i:j+1]
ftY=ftY[i:j+1]
ftLst=[]
if mode&2:
ftLst.append((ftX,'b'))
if mode&4:
ftLst.append((ftY,'g'))
if mode&8:
ftLst.append((ftY/ftX,'r'))
for ft,c in ftLst:
phase=np.angle(ft)
phase=np.degrees(np.unwrap(phase))
mag=np.abs(ft) #ftY)/np.abs(ftX)
if db:
magDb=20*np.log10(mag) #in decibel (20=10*2: factor 2 because rfft only half)
ax1.semilogx(f,magDb,c) # Bode magnitude plot
else:
ax1.semilogx(f, mag, c) # Bode magnitude plot
ax2.semilogx(f,phase,c) # Bode phase plot
plt.show(block=False)
if __name__=='__main__':
#import logging
#logger = logging.getLogger(__name__)
#logger = logging.getLogger('pbtools.misc.pp_comm')
#logger.setLevel(logging.DEBUG)
#logging.basicConfig(format=('%(asctime)s %(name)-12s '
# '%(levelname)-8s %(message)s'),
# datefmt='%m-%d %H:%M',
# )
def run_test(args):
if args.host is None:
comm=gather=None
else:
comm = PPComm(host=args.host)
gather = Gather(comm)
sp = ShapePath(comm, gather, args.verbose)
#fn='/home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/python/PBMotionAnalyzer/records/mode1'
#fh=np.load(fn+'.npz')
#for k,v in fh.iteritems():
# setattr(sp,k,v)
#sp.meta=sp.meta.item()
#sp.points=sp.pts; del sp.pts
#sp.plot_gather()
#return
fn='/tmp/shapepath'
#sp.setup_coord_trf()
#sp.points=np.zeros((2,2))
#sp.meta={'timebase':.2}
#sp.gather_upload(fnRec=fn+'.npz')
#sp.plot_gather()
#return
xy=False
# fn='/home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/python/data/'+time.strftime('%y-%m-%d-%H_%M_%S')
#>>>point source and sorting<<<
#sp.points = np.array([[100,523],[635,632],[756,213]])
#sp.points = np.array([[0, 0],[100, 0],[200, 0],[300, 0],[400, 0],[400, 100],[300, 100],[200, 100],[100, 100],[0, 100],[10, 200],[100, 200],[200, 200],[300, 200],[400, 200],[410, 300],[300, 300],[200, 300],[100, 300],[0, 300],[0, 400],[100, 400],[200, 400],[300, 400],[400, 400]])
#sp.gen_rand_points(n=107, scale=1000);sp.sort_points(xy=args.xy)
#sp.gen_grid_points(w=100,h=100,pitch=10,rnd=.2)
#sp.gen_swissfel_points(scale=300)
#sp.gen_grid_points(w=10,h=10,pitch=50,rnd=.2)
#sp.gen_grid_points(w=100,h=100,pitch=50,rnd=.2)
#setup_gather(self, acq_per=1)
sp.setup_gather()
#setup_sync(self, crdId=1, prgId=2, plcId=2, mode=0, **kwargs):
sp.setup_sync() #no sync at all
#sp.setup_sync(mode=1) #sync with timing system
#sp.gen_grid_points(w=2,h=2,pitch=50,rnd=.2);sp.sort_points(xy);sp.setup_motion(fnPrg=fn+'.prg',mode=1,pt2pt_time=10,acq_per=1)
#sp.gen_swissmx_points(scale=10);sp.setup_motion(fnPrg=fn+'.prg',mode=1,pt2pt_time=10,acq_per=1)
#sp.gen_grid_points(w=2,h=20,pitch=50,rnd=0);sp.setup_motion(fnPrg=fn+'.prg',mode=1,pt2pt_time=10,acq_per=1)
sp.gen_rand_points(n=500, scale=1000);sp.sort_points(xy);sp.setup_motion(fnPrg=fn+'.prg',mode=1,pt2pt_time=10,acq_per=1)
#>>>setup gather and sync<<<
#sp.setup_gather()
#sp.setup_sync()
#>>>setup motion program<<<
#sp.setup_motion(fnPrg=fn+'.prg',mode=1,pt2pt_time=10,acq_per=1)
#>>>run gather and plot trajectory<<<
sp.run()
sp.gather_upload(fnRec=fn+'.npz')
sp.plot_gather()
# cfg={"points": [[100,523],[635,632],[756,213]],"sequencer":[sort_points,move_trj+')']}
#cfg={"sequencer":['gen_rand_points(n=107, scale=1000)',sort_points,move_trj+')']}
# cfg={"sequencer":['gen_grid_points(w=10,h=10,pitch=100,rnd=.2)',sort_points,move_trj+')']}
# cfg={"sequencer":['gen_grid_points(w=10,h=10,pitch=100,rnd=0.2)',sort_points,move_trj+')']}
# cfg = {"sequencer": ['gen_rand_points(n=107, scale=1000)', sort_points]}
# cfg={"sequencer":['gen_grid_points(w=20,h=20,pitch=50,rnd=.2)',sort_points,move_trj+')']}
# cfg={"sequencer":['gen_grid_points(w=20,h=20,pitch=50,rnd=.2)',sort_points,move_trj+')']}
# cfg={"sequencer":['gen_rand_points(n=400, scale=1000)',sort_points,move_trj+')']}
# cfg = {"sequencer": ['gen_grid_points(w=20,h=20,pitch=50,rnd=.2)', sort_points,move_trj+',mode=0)',]}
# cfg = {"sequencer": ['gen_grid_points(w=5,h=5,pitch=50,rnd=.2)', sort_points,move_trj+',mode=1)',]}
# cfg = {"sequencer": ['gen_grid_points(w=2,h=2,pitch=100,rnd=0)', sort_points,move_trj+',mode=0)',]}
# cfg = {"sequencer": ['gen_grid_points(w=5,h=5,pitch=100,rnd=0.2)', sort_points,move_trj+',mode=0)',]}
# cfg = {"points": [[0, 0],[100, 0],[200, 0],[300, 0],[400, 0],[400, 100],[300, 100],[200, 100],[100, 100],[0, 100],[10, 200],[100, 200],[200, 200],[300, 200],[400, 200],[410, 300],[300, 300],[200, 300],[100, 300],[0, 300],[0, 400],[100, 400],[200, 400],[300, 400],[400, 400]],"sequencer": [move_trj+',mode=0)',]}
# cfg = {"sequencer": ['gen_grid_points(w=2,h=2,pitch=10000,rnd=0)', sort_points,move_trj+',mode=-1)',]}
# cfg = {"sequencer": ['gen_grid_points(w=2,h=2,pitch=10000,rnd=0)', sort_points,move_trj+',mode=1,pt2pt_time=1000)',]}
# cfg = {"sequencer": ['gen_grid_points(w=20,h=20,pitch=50,rnd=0.2)', sort_points,move_trj+',mode=1,pt2pt_time=10,acq_per=10)',]}
# cfg = {"sequencer": ['gen_rand_points(n=400, scale=1000)', sort_points,move_trj+',mode=1,pt2pt_time=10)',]}
#cfg={"sequencer": ['gen_grid_points(w=40,h=40,pitch=100,rnd=0.4)', sort_points,
# move_trj+',mode=1,pt2pt_time=10,cnt=1)',
# ]}
# 900npoints is a too big code block... and creates unfixable buffe locks
#cfg={"sequencer": ['gen_rand_points(n=5000, scale=100)', sort_points,
# move_trj+',mode=1,pt2pt_time=4,acq_per=10)',
# ]}
# cfg = {"sequencer": ['gen_swissfel_points(scale=300)',move_trj+',mode=1,pt2pt_time=100,acq_per=10)',]}
# cfg = {"sequencer": ['opt_pts("'+fn+'.npz")','move_trajectory(file="'+fn+'_corr.prg",mode=1,pt2pt_time=10,cnt=1)', ("'+fn+'_corr.npz")']}
# cfg = {"sequencer": ['opt_pts("'+fn+'.npz")',move_trj+',mode=1,pt2pt_time=10,cnt=1)']}
# cfg = {"sequencer": ['gen_grid_points(w=5,h=5,pitch=100,rnd=0.4)', sort_points,move_trj+',mode=1,pt2pt_time=10,cnt=1)']}
#cfg['sequencer'].append(gt_upld)
#cfg['sequencer'].append('plot_gather()')
from optparse import OptionParser, IndentedHelpFormatter
class MyFormatter(IndentedHelpFormatter):
'helper class for formating the OptionParser'
def __init__(self):
IndentedHelpFormatter.__init__(self)
def format_epilog(self, epilog):
if epilog:
return epilog
else:
return ""
def parse_args():
'main command line interpreter function'
#usage: gpasciiCommunicator.py --host=PPMACZT84 myPowerBRICK.cfg
(h, t)=os.path.split(sys.argv[0]);cmd='\n '+(t if len(h)>3 else sys.argv[0])+' '
exampleCmd=('-n',
'-v15'
)
epilog=__doc__+'''
Examples:'''+''.join(map(lambda s:cmd+s, exampleCmd))+'\n '
fmt=MyFormatter()
parser=OptionParser(epilog=epilog, formatter=fmt)
parser.add_option('-v', '--verbose', type="int", dest='verbose', help='verbosity bits (see below)', default=0)
parser.add_option('--host', help='hostname', default='SAR-CPPM-EXPMX1')
#parser.add_option('--host', help='hostname')
(args, other)=parser.parse_args()
args.other=other
run_test(args)
#------------------ Main Code ----------------------------------
#ssh_test()
ret=parse_args()
exit(ret)
Reference in New Issue View Git Blame Copy Permalink