def set_optics(v=None):
el = []
el.append(srwlib.SRWLOptD(1e-16))
el.append(srwlib.SRWLOptD(6.866))
ifnMirror1 = "mirror_1d.dat"
if ifnMirror1:
hProfDataMirror1 = srwlib.srwl_uti_read_data_cols(ifnMirror1, "\t", 0, 1)
el.append(srwlib.srwl_opt_setup_surf_height_1d(hProfDataMirror1, _dim="x", _ang=0.0436332, _amp_coef=1.0, _size_x=0.001, _size_y=0.001))
el.append(srwlib.SRWLOptD(20.634))
el.append(srwlib.SRWLOptG(_mirSub=srwlib.SRWLOptMirPl(_size_tang=0.2, _size_sag=0.015, _nvx=0.0, _nvy=0.99991607766, _nvz=-0.0129552165771, _tvx=0.0, _tvy=0.0129552165771), _m=1.0, _grDen=1800.0, _grDen1=0.08997, _grDen2=3.004e-06, _grDen3=9.73e-11, _grDen4=0.0))
el.append(srwlib.SRWLOptA("r", "a", 0.015, 0.00259104331543, 0.0, 0.0))
el.append(srwlib.SRWLOptD(34.63))
el.append(srwlib.SRWLOptA("r", "a", 0.01832012956, 0.02, 0.0, 0.0))
el.append(srwlib.SRWLOptMirEl(_p=89.63, _q=8.006, _ang_graz=0.0436332, _size_tang=0.42, _size_sag=0.02, _nvx=0.999048222947, _nvy=0.0, _nvz=-0.0436193560953, _tvx=-0.0436193560953, _tvy=0.0))
el.append(srwlib.SRWLOptD(8.006))
el.append(srwlib.SRWLOptA("r", "a", 0.0015, 0.0015, 0.0, 0.0))
el.append(srwlib.SRWLOptD(6.01))
el.append(srwlib.SRWLOptA("r", "a", 0.0130858068286, 0.003, 0.0, 0.0))
el.append(srwlib.SRWLOptMirEl(_p=6.01, _q=0.911, _ang_graz=0.0872665, _size_tang=0.3, _size_sag=0.05, _nvx=0.996194694832, _nvy=0.0, _nvz=-0.0871557800056, _tvx=-0.0871557800056, _tvy=0.0))
el.append(srwlib.SRWLOptD(0.5))
el.append(srwlib.SRWLOptMirEl(_p=6.51, _q=0.411, _ang_graz=0.0872665, _size_tang=0.3, _size_sag=0.05, _nvx=0.0, _nvy=0.996194694832, _nvz=-0.0871557800056, _tvx=0.0, _tvy=-0.0871557800056))
el.append(srwlib.SRWLOptD(0.411))
pp = []
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 1, 0, 1.0, 1.0, 1.0, 1.0])
if ifnMirror1:
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 1, 0, 1.2, 3.5, 1.2, 3.0])
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 1, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 1, 0, 3.0, 1.0, 3.0, 1.0])
pp.append([0, 0, 1.0, 0, 0, 0.4, 1.0, 0.4, 1.0])
pp.append([0, 0, 1.0, 1, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 1, 0, 2.0, 1.0, 2.0, 1.0])
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 1, 0, 1.0, 1.0, 1.0, 1.0])
pp.append([0, 0, 1.0, 0, 1, 0.07, 1.5, 0.07, 6.0])
return srwlib.SRWLOptC(el, pp)
def set_optics(v=None):
el = []
pp = []
names = [
'Fixed_Mask', 'Fixed_Mask_M1A', 'M1A', 'M1A_Watchpoint', 'Watchpoint',
'M2A_VDM', 'M2A_VDM_Grating', 'Grating', 'Grating_Aperture',
'Aperture', 'Watchpoint2', 'M3A_HFM', 'M3A_HFM_Watchpoint3',
'Watchpoint3', 'Pinhole', 'Watchpoint4', 'Watchpoint4_Sample', 'Sample'
]
for el_name in names:
if el_name == 'Fixed_Mask':
# Fixed_Mask: aperture 26.2m
el.append(
srwlib.SRWLOptA(
_shape=v.op_Fixed_Mask_shape,
_ap_or_ob='a',
_Dx=v.op_Fixed_Mask_Dx,
_Dy=v.op_Fixed_Mask_Dy,
_x=v.op_Fixed_Mask_x,
_y=v.op_Fixed_Mask_y,
))
pp.append(v.op_Fixed_Mask_pp)
elif el_name == 'Fixed_Mask_M1A':
# Fixed_Mask_M1A: drift 26.2m
el.append(srwlib.SRWLOptD(_L=v.op_Fixed_Mask_M1A_L, ))
pp.append(v.op_Fixed_Mask_M1A_pp)
elif el_name == 'M1A':
# M1A: mirror 27.2m
mirror_file = v.op_M1A_hfn
assert os.path.isfile(mirror_file), \
'Missing input file {}, required by M1A beamline element'.format(mirror_file)
el.append(
srwlib.srwl_opt_setup_surf_height_1d(
srwlib.srwl_uti_read_data_cols(mirror_file, "\t", 0, 1),
_dim=v.op_M1A_dim,
_ang=abs(v.op_M1A_ang),
_amp_coef=v.op_M1A_amp_coef,
_size_x=v.op_M1A_size_x,
_size_y=v.op_M1A_size_y,
))
pp.append(v.op_M1A_pp)
elif el_name == 'M1A_Watchpoint':
# M1A_Watchpoint: drift 27.2m
el.append(srwlib.SRWLOptD(_L=v.op_M1A_Watchpoint_L, ))
pp.append(v.op_M1A_Watchpoint_pp)
elif el_name == 'Watchpoint':
# Watchpoint: watch 40.4m
pass
elif el_name == 'M2A_VDM':
# M2A_VDM: mirror 40.4m
mirror_file = v.op_M2A_VDM_hfn
assert os.path.isfile(mirror_file), \
'Missing input file {}, required by M2A_VDM beamline element'.format(mirror_file)
el.append(
srwlib.srwl_opt_setup_surf_height_1d(
srwlib.srwl_uti_read_data_cols(mirror_file, "\t", 0, 1),
_dim=v.op_M2A_VDM_dim,
_ang=abs(v.op_M2A_VDM_ang),
_amp_coef=v.op_M2A_VDM_amp_coef,
_size_x=v.op_M2A_VDM_size_x,
_size_y=v.op_M2A_VDM_size_y,
))
pp.append(v.op_M2A_VDM_pp)
elif el_name == 'M2A_VDM_Grating':
# M2A_VDM_Grating: drift 40.4m
el.append(srwlib.SRWLOptD(_L=v.op_M2A_VDM_Grating_L, ))
pp.append(v.op_M2A_VDM_Grating_pp)
elif el_name == 'Grating':
# Grating: grating 40.46m
mirror = srwlib.SRWLOptMirPl(
_size_tang=v.op_Grating_size_tang,
_size_sag=v.op_Grating_size_sag,
_nvx=v.op_Grating_nvx,
_nvy=v.op_Grating_nvy,
_nvz=v.op_Grating_nvz,
_tvx=v.op_Grating_tvx,
_tvy=v.op_Grating_tvy,
_x=v.op_Grating_x,
_y=v.op_Grating_y,
)
el.append(
srwlib.SRWLOptG(
_mirSub=mirror,
_m=v.op_Grating_m,
_grDen=v.op_Grating_grDen,
_grDen1=v.op_Grating_grDen1,
_grDen2=v.op_Grating_grDen2,
_grDen3=v.op_Grating_grDen3,
_grDen4=v.op_Grating_grDen4,
))
pp.append(v.op_Grating_pp)
elif el_name == 'Grating_Aperture':
# Grating_Aperture: drift 40.46m
el.append(srwlib.SRWLOptD(_L=v.op_Grating_Aperture_L, ))
pp.append(v.op_Grating_Aperture_pp)
elif el_name == 'Aperture':
# Aperture: aperture 42.46m
el.append(
srwlib.SRWLOptA(
_shape=v.op_Aperture_shape,
_ap_or_ob='a',
_Dx=v.op_Aperture_Dx,
_Dy=v.op_Aperture_Dy,
_x=v.op_Aperture_x,
_y=v.op_Aperture_y,
))
pp.append(v.op_Aperture_pp)
elif el_name == 'Watchpoint2':
# Watchpoint2: watch 42.46m
pass
elif el_name == 'M3A_HFM':
# M3A_HFM: sphericalMirror 42.46m
el.append(
srwlib.SRWLOptMirSph(
_r=v.op_M3A_HFM_r,
_size_tang=v.op_M3A_HFM_size_tang,
_size_sag=v.op_M3A_HFM_size_sag,
_nvx=v.op_M3A_HFM_nvx,
_nvy=v.op_M3A_HFM_nvy,
_nvz=v.op_M3A_HFM_nvz,
_tvx=v.op_M3A_HFM_tvx,
_tvy=v.op_M3A_HFM_tvy,
_x=v.op_M3A_HFM_x,
_y=v.op_M3A_HFM_y,
))
pp.append(v.op_M3A_HFM_pp)
elif el_name == 'M3A_HFM_Watchpoint3':
# M3A_HFM_Watchpoint3: drift 42.46m
el.append(srwlib.SRWLOptD(_L=v.op_M3A_HFM_Watchpoint3_L, ))
pp.append(v.op_M3A_HFM_Watchpoint3_pp)
elif el_name == 'Watchpoint3':
# Watchpoint3: watch 54.36m
pass
elif el_name == 'Pinhole':
# Pinhole: aperture 54.36m
el.append(
srwlib.SRWLOptA(
_shape=v.op_Pinhole_shape,
_ap_or_ob='a',
_Dx=v.op_Pinhole_Dx,
_Dy=v.op_Pinhole_Dy,
_x=v.op_Pinhole_x,
_y=v.op_Pinhole_y,
))
pp.append(v.op_Pinhole_pp)
elif el_name == 'Watchpoint4':
# Watchpoint4: watch 54.36m
pass
elif el_name == 'Watchpoint4_Sample':
# Watchpoint4_Sample: drift 54.36m
el.append(srwlib.SRWLOptD(_L=v.op_Watchpoint4_Sample_L, ))
pp.append(v.op_Watchpoint4_Sample_pp)
elif el_name == 'Sample':
# Sample: watch 55.5m
pass
pp.append(v.op_fin_pp)
return srwlib.SRWLOptC(el, pp)
def set_optics(v=None):
el = []
pp = []
names = [
'M1', 'M1_Grating', 'Grating', 'GA', 'GA_M3A', 'M3A', 'M3', 'M3_SSA',
'SSA', 'SSA_KBAperture', 'KBAperture', 'KBh', 'KBh_KBv', 'KBv',
'KBv_Sample', 'Sample'
]
for el_name in names:
if el_name == 'M1':
# M1: mirror 34.366m
mirror_file = v.op_M1_hfn
assert os.path.isfile(mirror_file), \
'Missing input file {}, required by M1 beamline element'.format(mirror_file)
el.append(
srwlib.srwl_opt_setup_surf_height_1d(
srwlib.srwl_uti_read_data_cols(mirror_file, "\t", 0, 1),
_dim=v.op_M1_dim,
_ang=abs(v.op_M1_ang),
_amp_coef=v.op_M1_amp_coef,
_size_x=v.op_M1_size_x,
_size_y=v.op_M1_size_y,
))
pp.append(v.op_M1_pp)
elif el_name == 'M1_Grating':
# M1_Grating: drift 34.366m
el.append(srwlib.SRWLOptD(_L=v.op_M1_Grating_L, ))
pp.append(v.op_M1_Grating_pp)
elif el_name == 'Grating':
# Grating: grating 55.0m
mirror = srwlib.SRWLOptMirPl(
_size_tang=v.op_Grating_size_tang,
_size_sag=v.op_Grating_size_sag,
_nvx=v.op_Grating_nvx,
_nvy=v.op_Grating_nvy,
_nvz=v.op_Grating_nvz,
_tvx=v.op_Grating_tvx,
_tvy=v.op_Grating_tvy,
_x=v.op_Grating_x,
_y=v.op_Grating_y,
)
el.append(
srwlib.SRWLOptG(
_mirSub=mirror,
_m=v.op_Grating_m,
_grDen=v.op_Grating_grDen,
_grDen1=v.op_Grating_grDen1,
_grDen2=v.op_Grating_grDen2,
_grDen3=v.op_Grating_grDen3,
_grDen4=v.op_Grating_grDen4,
))
pp.append(v.op_Grating_pp)
elif el_name == 'GA':
# GA: aperture 55.0m
el.append(
srwlib.SRWLOptA(
_shape=v.op_GA_shape,
_ap_or_ob='a',
_Dx=v.op_GA_Dx,
_Dy=v.op_GA_Dy,
_x=v.op_GA_x,
_y=v.op_GA_y,
))
pp.append(v.op_GA_pp)
elif el_name == 'GA_M3A':
# GA_M3A: drift 55.0m
el.append(srwlib.SRWLOptD(_L=v.op_GA_M3A_L, ))
pp.append(v.op_GA_M3A_pp)
elif el_name == 'M3A':
# M3A: aperture 89.63m
el.append(
srwlib.SRWLOptA(
_shape=v.op_M3A_shape,
_ap_or_ob='a',
_Dx=v.op_M3A_Dx,
_Dy=v.op_M3A_Dy,
_x=v.op_M3A_x,
_y=v.op_M3A_y,
))
pp.append(v.op_M3A_pp)
elif el_name == 'M3':
# M3: ellipsoidMirror 89.63m
el.append(
srwlib.SRWLOptMirEl(
_p=v.op_M3_p,
_q=v.op_M3_q,
_ang_graz=v.op_M3_ang,
_size_tang=v.op_M3_size_tang,
_size_sag=v.op_M3_size_sag,
_nvx=v.op_M3_nvx,
_nvy=v.op_M3_nvy,
_nvz=v.op_M3_nvz,
_tvx=v.op_M3_tvx,
_tvy=v.op_M3_tvy,
_x=v.op_M3_x,
_y=v.op_M3_y,
))
pp.append(v.op_M3_pp)
elif el_name == 'M3_SSA':
# M3_SSA: drift 89.63m
el.append(srwlib.SRWLOptD(_L=v.op_M3_SSA_L, ))
pp.append(v.op_M3_SSA_pp)
elif el_name == 'SSA':
# SSA: aperture 97.636m
el.append(
srwlib.SRWLOptA(
_shape=v.op_SSA_shape,
_ap_or_ob='a',
_Dx=v.op_SSA_Dx,
_Dy=v.op_SSA_Dy,
_x=v.op_SSA_x,
_y=v.op_SSA_y,
))
pp.append(v.op_SSA_pp)
elif el_name == 'SSA_KBAperture':
# SSA_KBAperture: drift 97.636m
el.append(srwlib.SRWLOptD(_L=v.op_SSA_KBAperture_L, ))
pp.append(v.op_SSA_KBAperture_pp)
elif el_name == 'KBAperture':
# KBAperture: aperture 103.646m
el.append(
srwlib.SRWLOptA(
_shape=v.op_KBAperture_shape,
_ap_or_ob='a',
_Dx=v.op_KBAperture_Dx,
_Dy=v.op_KBAperture_Dy,
_x=v.op_KBAperture_x,
_y=v.op_KBAperture_y,
))
pp.append(v.op_KBAperture_pp)
elif el_name == 'KBh':
# KBh: ellipsoidMirror 103.646m
el.append(
srwlib.SRWLOptMirEl(
_p=v.op_KBh_p,
_q=v.op_KBh_q,
_ang_graz=v.op_KBh_ang,
_size_tang=v.op_KBh_size_tang,
_size_sag=v.op_KBh_size_sag,
_nvx=v.op_KBh_nvx,
_nvy=v.op_KBh_nvy,
_nvz=v.op_KBh_nvz,
_tvx=v.op_KBh_tvx,
_tvy=v.op_KBh_tvy,
_x=v.op_KBh_x,
_y=v.op_KBh_y,
))
pp.append(v.op_KBh_pp)
elif el_name == 'KBh_KBv':
# KBh_KBv: drift 103.646m
el.append(srwlib.SRWLOptD(_L=v.op_KBh_KBv_L, ))
pp.append(v.op_KBh_KBv_pp)
elif el_name == 'KBv':
# KBv: ellipsoidMirror 104.146m
el.append(
srwlib.SRWLOptMirEl(
_p=v.op_KBv_p,
_q=v.op_KBv_q,
_ang_graz=v.op_KBv_ang,
_size_tang=v.op_KBv_size_tang,
_size_sag=v.op_KBv_size_sag,
_nvx=v.op_KBv_nvx,
_nvy=v.op_KBv_nvy,
_nvz=v.op_KBv_nvz,
_tvx=v.op_KBv_tvx,
_tvy=v.op_KBv_tvy,
_x=v.op_KBv_x,
_y=v.op_KBv_y,
))
pp.append(v.op_KBv_pp)
elif el_name == 'KBv_Sample':
# KBv_Sample: drift 104.146m
el.append(srwlib.SRWLOptD(_L=v.op_KBv_Sample_L, ))
pp.append(v.op_KBv_Sample_pp)
elif el_name == 'Sample':
# Sample: watch 104.557m
pass
pp.append(v.op_fin_pp)
return srwlib.SRWLOptC(el, pp)
def set_optics(v=None):
el = []
# M1: mirror 34.366m
ifnMirror1 = "mirror_1d.dat"
if ifnMirror1:
assert os.path.isfile(ifnMirror1), "Missing input file mirror_1d.dat, required by M1 beamline element"
hProfDataMirror1 = srwlib.srwl_uti_read_data_cols(ifnMirror1, "\t", 0, 1)
el.append(srwlib.srwl_opt_setup_surf_height_1d(hProfDataMirror1, _dim="x", _ang=0.0436332, _amp_coef=1.0, _size_x=0.001, _size_y=0.001))
el.append(srwlib.SRWLOptD(20.634))
# Grating: grating 55.0m
el.append(srwlib.SRWLOptG(_mirSub=srwlib.SRWLOptMirPl(_size_tang=0.2, _size_sag=0.015, _nvx=0.0, _nvy=0.99991607766, _nvz=-0.0129552165771, _tvx=0.0, _tvy=0.0129552165771, _x=0.0, _y=0.0), _m=1.0, _grDen=1800.0, _grDen1=0.08997, _grDen2=3.004e-06, _grDen3=9.73e-11, _grDen4=0.0))
# GA: aperture 55.0m
el.append(srwlib.SRWLOptA("r", "a", 0.015, 0.00259104331543, 0.0, 0.0))
el.append(srwlib.SRWLOptD(34.63))
# M3A: aperture 89.63m
el.append(srwlib.SRWLOptA("r", "a", 0.01832012956, 0.02, 0.0, 0.0))
# M3: ellipsoidMirror 89.63m
el.append(srwlib.SRWLOptMirEl(_p=89.63, _q=8.006, _ang_graz=0.0436332, _size_tang=0.42, _size_sag=0.02, _nvx=0.999048222947, _nvy=0.0, _nvz=-0.0436193560953, _tvx=-0.0436193560953, _tvy=0.0, _x=0.0, _y=0.0))
el.append(srwlib.SRWLOptD(8.006))
# SSA: aperture 97.636m
el.append(srwlib.SRWLOptA("r", "a", 0.0015, 0.0015, 0.0, 0.0))
el.append(srwlib.SRWLOptD(6.01))
# KBAperture: aperture 103.646m
el.append(srwlib.SRWLOptA("r", "a", 0.0130858068286, 0.003, 0.0, 0.0))
# KBh: ellipsoidMirror 103.646m
el.append(srwlib.SRWLOptMirEl(_p=6.01, _q=0.911, _ang_graz=0.0872665, _size_tang=0.3, _size_sag=0.05, _nvx=0.996194694832, _nvy=0.0, _nvz=-0.0871557800056, _tvx=-0.0871557800056, _tvy=0.0, _x=0.0, _y=0.0))
el.append(srwlib.SRWLOptD(0.5))
# KBv: ellipsoidMirror 104.146m
el.append(srwlib.SRWLOptMirEl(_p=6.51, _q=0.411, _ang_graz=0.0872665, _size_tang=0.3, _size_sag=0.05, _nvx=0.0, _nvy=0.996194694832, _nvz=-0.0871557800056, _tvx=0.0, _tvy=-0.0871557800056, _x=0.0, _y=0.0))
el.append(srwlib.SRWLOptD(0.411))
# Sample: watch 104.557m
pp = []
# M1
if ifnMirror1:
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
pp.append([0, 0, 1.0, 1, 0, 1.2, 3.5, 1.2, 3.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# Grating
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# GA
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
pp.append([0, 0, 1.0, 1, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# M3A
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# M3
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
pp.append([0, 0, 1.0, 1, 0, 3.0, 1.0, 3.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# SSA
pp.append([0, 0, 1.0, 0, 0, 0.4, 1.0, 0.4, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
pp.append([0, 0, 1.0, 1, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# KBAperture
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# KBh
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
pp.append([0, 0, 1.0, 1, 0, 2.0, 1.0, 2.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# KBv
pp.append([0, 0, 1.0, 0, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
pp.append([0, 0, 1.0, 1, 0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
# Sample
# final post-propagation
pp.append([0, 0, 1.0, 0, 1, 0.07, 1.5, 0.07, 6.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0])
return srwlib.SRWLOptC(el, pp)
def set_optics(v=None):
el = []
pp = []
names = [
'Fixed_Mask', 'Fixed_Mask_Ap_M1', 'Ap_M1', 'M1', 'M1_M2', 'M2',
'M2_Before_Grating', 'Before_Grating', 'Grating',
'Gr_Surf_Height_Err_Before_M3', 'Before_M3', 'M3',
'Lens_Before_Exit_Slit', 'Before_Exit_Slit', 'Exit_Slit',
'After_Exit_Slit', 'After_Exit_Slit_Before_ZP', 'Before_ZP', 'Ap_ZP',
'Zone_Plate', 'After_ZP', 'After_ZP_Watchpoint', 'Watchpoint'
]
for el_name in names:
if el_name == 'Fixed_Mask':
# Fixed_Mask: aperture 20.0m
el.append(
srwlib.SRWLOptA(
_shape=v.op_Fixed_Mask_shape,
_ap_or_ob='a',
_Dx=v.op_Fixed_Mask_Dx,
_Dy=v.op_Fixed_Mask_Dy,
_x=v.op_Fixed_Mask_x,
_y=v.op_Fixed_Mask_y,
))
pp.append(v.op_Fixed_Mask_pp)
elif el_name == 'Fixed_Mask_Ap_M1':
# Fixed_Mask_Ap_M1: drift 20.0m
el.append(srwlib.SRWLOptD(_L=v.op_Fixed_Mask_Ap_M1_L, ))
pp.append(v.op_Fixed_Mask_Ap_M1_pp)
elif el_name == 'Ap_M1':
# Ap_M1: aperture 27.75m
el.append(
srwlib.SRWLOptA(
_shape=v.op_Ap_M1_shape,
_ap_or_ob='a',
_Dx=v.op_Ap_M1_Dx,
_Dy=v.op_Ap_M1_Dy,
_x=v.op_Ap_M1_x,
_y=v.op_Ap_M1_y,
))
pp.append(v.op_Ap_M1_pp)
elif el_name == 'M1':
# M1: toroidalMirror 27.75m
el.append(
srwlib.SRWLOptMirTor(
_rt=v.op_M1_rt,
_rs=v.op_M1_rs,
_size_tang=v.op_M1_size_tang,
_size_sag=v.op_M1_size_sag,
_x=v.op_M1_horizontalPosition,
_y=v.op_M1_verticalPosition,
_ap_shape=v.op_M1_ap_shape,
_nvx=v.op_M1_nvx,
_nvy=v.op_M1_nvy,
_nvz=v.op_M1_nvz,
_tvx=v.op_M1_tvx,
_tvy=v.op_M1_tvy,
))
pp.append(v.op_M1_pp)
elif el_name == 'M1_M2':
# M1_M2: drift 27.75m
el.append(srwlib.SRWLOptD(_L=v.op_M1_M2_L, ))
pp.append(v.op_M1_M2_pp)
## elif el_name == 'M2':
## # M2: mirror 33.75m
## mirror_file = v.op_M2_hfn
## assert os.path.isfile(mirror_file), \
## 'Missing input file {}, required by M2 beamline element'.format(mirror_file)
## el.append(srwlib.srwl_opt_setup_surf_height_2d(
## srwlib.srwl_uti_read_data_cols(mirror_file, "\t"),
## _dim=v.op_M2_dim,
## _ang=abs(v.op_M2_ang),
## _amp_coef=v.op_M2_amp_coef,
## _size_x=v.op_M2_size_x,
## _size_y=v.op_M2_size_y,
## ))
## pp.append(v.op_M2_pp)
elif el_name == 'M2_Before_Grating':
# M2_Before_Grating: drift 33.75m
el.append(srwlib.SRWLOptD(_L=v.op_M2_Before_Grating_L, ))
pp.append(v.op_M2_Before_Grating_pp)
elif el_name == 'Before_Grating':
# Before_Grating: watch 34.25m
pass
elif el_name == 'Grating':
# Grating: grating 34.25m
mirror = srwlib.SRWLOptMirPl(
_size_tang=v.op_Grating_size_tang,
_size_sag=v.op_Grating_size_sag,
_nvx=v.op_Grating_nvx,
_nvy=v.op_Grating_nvy,
_nvz=v.op_Grating_nvz,
_tvx=v.op_Grating_tvx,
_tvy=v.op_Grating_tvy,
_x=v.op_Grating_x,
_y=v.op_Grating_y,
)
el.append(
srwlib.SRWLOptG(
_mirSub=mirror,
_m=v.op_Grating_m,
_grDen=v.op_Grating_grDen,
_grDen1=v.op_Grating_grDen1,
_grDen2=v.op_Grating_grDen2,
_grDen3=v.op_Grating_grDen3,
_grDen4=v.op_Grating_grDen4,
))
pp.append(v.op_Grating_pp)
elif el_name == 'Gr_Surf_Height_Err_Before_M3':
# Gr_Surf_Height_Err_Before_M3: drift 34.25m
el.append(srwlib.SRWLOptD(
_L=v.op_Gr_Surf_Height_Err_Before_M3_L, ))
pp.append(v.op_Gr_Surf_Height_Err_Before_M3_pp)
elif el_name == 'Before_M3':
# Before_M3: watch 36.75m
pass
elif el_name == 'M3':
# M3: toroidalMirror 36.75m
el.append(
srwlib.SRWLOptMirTor(
_rt=v.op_M3_rt,
_rs=v.op_M3_rs,
_size_tang=v.op_M3_size_tang,
_size_sag=v.op_M3_size_sag,
_x=v.op_M3_horizontalPosition,
_y=v.op_M3_verticalPosition,
_ap_shape=v.op_M3_ap_shape,
_nvx=v.op_M3_nvx,
_nvy=v.op_M3_nvy,
_nvz=v.op_M3_nvz,
_tvx=v.op_M3_tvx,
_tvy=v.op_M3_tvy,
))
pp.append(v.op_M3_pp)
elif el_name == 'Lens_Before_Exit_Slit':
# Lens_Before_Exit_Slit: drift 36.75m
el.append(srwlib.SRWLOptD(_L=v.op_Lens_Before_Exit_Slit_L, ))
pp.append(v.op_Lens_Before_Exit_Slit_pp)
elif el_name == 'Before_Exit_Slit':
# Before_Exit_Slit: watch 51.75m
pass
elif el_name == 'Exit_Slit':
# Exit_Slit: aperture 51.75m
el.append(
srwlib.SRWLOptA(
_shape=v.op_Exit_Slit_shape,
_ap_or_ob='a',
_Dx=v.op_Exit_Slit_Dx,
_Dy=v.op_Exit_Slit_Dy,
_x=v.op_Exit_Slit_x,
_y=v.op_Exit_Slit_y,
))
pp.append(v.op_Exit_Slit_pp)
elif el_name == 'After_Exit_Slit':
# After_Exit_Slit: watch 51.75m
pass
elif el_name == 'After_Exit_Slit_Before_ZP':
# After_Exit_Slit_Before_ZP: drift 51.75m
el.append(srwlib.SRWLOptD(_L=v.op_After_Exit_Slit_Before_ZP_L, ))
pp.append(v.op_After_Exit_Slit_Before_ZP_pp)
elif el_name == 'Before_ZP':
# Before_ZP: watch 56.75m
pass
elif el_name == 'Ap_ZP':
# Ap_ZP: aperture 56.75m
el.append(
srwlib.SRWLOptA(
_shape=v.op_Ap_ZP_shape,
_ap_or_ob='a',
_Dx=v.op_Ap_ZP_Dx,
_Dy=v.op_Ap_ZP_Dy,
_x=v.op_Ap_ZP_x,
_y=v.op_Ap_ZP_y,
))
pp.append(v.op_Ap_ZP_pp)
elif el_name == 'Zone_Plate':
# Zone_Plate: zonePlate 56.75m
el.append(
srwlib.SRWLOptZP(
_nZones=v.op_Zone_Plate_nZones,
_rn=v.op_Zone_Plate_rn,
_thick=v.op_Zone_Plate_thick,
_delta1=v.op_Zone_Plate_delta1,
_atLen1=v.op_Zone_Plate_atLen1,
_delta2=v.op_Zone_Plate_delta2,
_atLen2=v.op_Zone_Plate_atLen2,
_x=v.op_Zone_Plate_x,
_y=v.op_Zone_Plate_y,
))
pp.append(v.op_Zone_Plate_pp)
elif el_name == 'After_ZP':
# After_ZP: watch 56.75m
pass
elif el_name == 'After_ZP_Watchpoint':
# After_ZP_Watchpoint: drift 56.75m
el.append(srwlib.SRWLOptD(_L=v.op_After_ZP_Watchpoint_L, ))
pp.append(v.op_After_ZP_Watchpoint_pp)
elif el_name == 'Watchpoint':
# Watchpoint: watch 56.753227m
pass
pp.append(v.op_fin_pp)
#print(pp)
return srwlib.SRWLOptC(el, pp)
