From: W. Trevor King Date: Mon, 23 Feb 2009 16:28:42 +0000 (-0500) Subject: Broke bump unit conversion out into its own functions. X-Git-Tag: 0.4~5 X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=2d73813d971fa890e456afcac42926affad8659f;p=calibcant.git Broke bump unit conversion out into its own functions. To provide conversion functions for other scripts, e.g. scale_unfold.py. --- diff --git a/calibcant/bump_analyze.py b/calibcant/bump_analyze.py index 7482879..21e13cb 100755 --- a/calibcant/bump_analyze.py +++ b/calibcant/bump_analyze.py @@ -54,15 +54,37 @@ from splittable_kwargs import splittableKwargsFunction, \ make_splittable_kwargs_function +@splittableKwargsFunction() +def Vzp_bits2nm(data_bits, zpGain=config.zpGain, + zpSensitivity=config.zpSensitivity, + Vzp_out2V=config.Vzp_out2V): + scale_Vzp_bits2V = Vzp_out2V(1) - Vzp_out2V(0) + data_V = data_bits / scale_Vzp_bits2V + # bits / (bits/V) = V + data_nm = data_V * zpGain * zpSensitivity + return data_nm + +@splittableKwargsFunction() +def Vphoto_bits2V(data_bits, Vphoto_in2V=config.Vphoto_in2V): + scale_Vphoto_bits2V = Vphoto_in2V(1) - Vphoto_in2V(0) + Vphoto_V = data_bits / scale_Vphoto_bits2V + # bits / (bits/V) = V + return Vphoto_V + +@splittableKwargsFunction((Vzp_bits2nm, 'data_bits'), + (Vphoto_bits2V, 'data_bits')) +def slope_bitspbit2Vpnm(slope_bitspbit, **kwargs): + zp_kwargs,photo_kwargs = slope_bitspbit2Vpnm._splitargs(slope_bitspbit2Vpnm, kwargs) + Vzp_bits = 1.0 + Vphoto_bits = slope_bitspbit * Vzp_bits + return Vphoto_bits2V(Vphoto_bits, **photo_kwargs)/Vzp_bits2nm(Vzp_bits, **zp_kwargs) + #@splittableKwargsFunction((bump_fit, 'zpiezo_output_bits', -# 'deflection_input_bits')) +# 'deflection_input_bits'), +# (slope_bitspbit2Vpnm, 'slope_bitspbit')) # Some of the child functions aren't yet defined, so postpone # make-splittable until later in the module. -def bump_analyze(data, zpGain=config.zpGain, - zpSensitivity=config.zpSensitivity, - Vzp_out2V=config.Vzp_out2V, - Vphoto_in2V=config.Vphoto_in2V, - **kwargs) : +def bump_analyze(data, **kwargs) : """ Return the slope of the bump ;). Inputs: @@ -79,16 +101,12 @@ def bump_analyze(data, zpGain=config.zpGain, and THEN converted, so we're assuming that both conversions are LINEAR. if they aren't, rewrite to convert before the regression. """ - bump_fit_kwargs, = bump_analyze._splitargs(bump_analyze, kwargs) + bump_fit_kwargs,slope_bitspbit2Vpnm_kwargs = \ + bump_analyze._splitargs(bump_analyze, kwargs) Vphoto2Vzp_out_bit = bump_fit(data['Z piezo output'], data['Deflection input'], **bump_fit_kwargs) - scale_Vzp_bits2V = Vzp_out2V(1) - Vzp_out2V(0) - scale_Vphoto_bits2V = Vphoto_in2V(1) - Vphoto_in2V(0) - Vphoto2Vzp_out = Vphoto2Vzp_out_bit *scale_Vphoto_bits2V / scale_Vzp_bits2V - # 1 / (Vzp/Vzp_out * Zp/Vzp * Zcant/Zp ) - Vzp_out2Zcant = 1.0/ (zpGain * zpSensitivity) # * 1 - return Vphoto2Vzp_out * Vzp_out2Zcant + return slope_bitspbit2Vpnm(Vphoto2Vzp_out_bit, **slope_bitspbit2Vpnm_kwargs) def limited_quadratic(x, params): """ @@ -223,7 +241,8 @@ def bump_plot(data, yguess=None, yfit=None, plotVerbose=False) : make_splittable_kwargs_function(bump_analyze, (bump_fit, 'zpiezo_output_bits', - 'deflection_input_bits')) + 'deflection_input_bits'), + (slope_bitspbit2Vpnm, 'slope_bitspbit')) @splittableKwargsFunction((bump_analyze, 'data')) def bump_load_analyze_tweaked(tweak_file, **kwargs):