[4bae1ef] | 1 | # This program is public domain |
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| 2 | # Author: Paul Kienzle |
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| 3 | """ |
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| 4 | Define unit conversion support for NeXus style units. |
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| 5 | |
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| 6 | The unit format is somewhat complicated. There are variant spellings |
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| 7 | and incorrect capitalization to worry about, as well as forms such as |
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| 8 | "mili*metre" and "1e-7 seconds". |
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| 9 | |
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| 10 | This is a minimal implementation of units including only what I happen to |
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| 11 | need now. It does not support the complete dimensional analysis provided |
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| 12 | by the package udunits on which NeXus is based, or even the units used |
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| 13 | in the NeXus definition files. |
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| 14 | |
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| 15 | Unlike other units packages, this package does not carry the units along with |
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| 16 | the value but merely provides a conversion function for transforming values. |
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| 17 | |
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| 18 | Usage example:: |
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| 19 | |
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| 20 | import nxsunit |
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| 21 | u = nxsunit.Converter('mili*metre') # Units stored in mm |
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| 22 | v = u(3000,'m') # Convert the value 3000 mm into meters |
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| 23 | |
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| 24 | NeXus example:: |
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| 25 | |
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| 26 | # Load sample orientation in radians regardless of how it is stored. |
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| 27 | # 1. Open the path |
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| 28 | file.openpath('/entry1/sample/sample_orientation') |
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| 29 | # 2. scan the attributes, retrieving 'units' |
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| 30 | units = [for attr,value in file.attrs() if attr == 'units'] |
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| 31 | # 3. set up the converter (assumes that units actually exists) |
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| 32 | u = nxsunit.Converter(units[0]) |
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| 33 | # 4. read the data and convert to the correct units |
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| 34 | v = u(file.read(),'radians') |
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| 35 | |
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| 36 | This is a standalone module, not relying on either DANSE or NeXus, and |
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| 37 | can be used for other unit conversion tasks. |
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| 38 | |
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| 39 | Note: minutes are used for angle and seconds are used for time. We |
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| 40 | cannot tell what the correct interpretation is without knowing something |
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| 41 | about the fields themselves. If this becomes an issue, we will need to |
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| 42 | allow the application to set the dimension for the unit rather than |
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| 43 | inferring the dimension from an example unit. |
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| 44 | """ |
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| 45 | |
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| 46 | # TODO: Add udunits to NAPI rather than reimplementing it in python |
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| 47 | # TODO: Alternatively, parse the udunits database directly |
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| 48 | # UDUnits: |
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| 49 | # http://www.unidata.ucar.edu/software/udunits/udunits-1/udunits.txt |
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| 50 | |
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| 51 | from __future__ import division |
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| 52 | import math |
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| 53 | |
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| 54 | __all__ = ['Converter'] |
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| 55 | |
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| 56 | # Limited form of units for returning objects of a specific type. |
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| 57 | # Maybe want to do full units handling with e.g., pyre's |
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| 58 | # unit class. For now lets keep it simple. Note that |
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| 59 | def _build_metric_units(unit,abbr): |
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| 60 | """ |
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| 61 | Construct standard SI names for the given unit. |
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| 62 | Builds e.g., |
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| 63 | s, ns |
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| 64 | second, nanosecond, nano*second |
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| 65 | seconds, nanoseconds |
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| 66 | Includes prefixes for femto through peta. |
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| 67 | |
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| 68 | Ack! Allows, e.g., Coulomb and coulomb even though Coulomb is not |
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| 69 | a unit because some NeXus files store it that way! |
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| 70 | |
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| 71 | Returns a dictionary of names and scales. |
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| 72 | """ |
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| 73 | prefix = dict(peta=1e15,tera=1e12,giga=1e9,mega=1e6,kilo=1e3, |
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| 74 | deci=1e-1,centi=1e-2,milli=1e-3,mili=1e-3,micro=1e-6, |
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| 75 | nano=1e-9,pico=1e-12,femto=1e-15) |
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| 76 | short_prefix = dict(P=1e15,T=1e12,G=1e9,M=1e6,k=1e3, |
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| 77 | d=1e-1,c=1e-2,m=1e-3,u=1e-6, |
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| 78 | n=1e-9,p=1e-12,f=1e-15) |
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| 79 | map = {abbr:1} |
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| 80 | map.update([(P+abbr,scale) for (P,scale) in short_prefix.iteritems()]) |
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| 81 | for name in [unit,unit.capitalize()]: |
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| 82 | map.update({name:1,name+'s':1}) |
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| 83 | map.update([(P+name,scale) for (P,scale) in prefix.iteritems()]) |
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| 84 | map.update([(P+'*'+name,scale) for (P,scale) in prefix.iteritems()]) |
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| 85 | map.update([(P+name+'s',scale) for (P,scale) in prefix.iteritems()]) |
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| 86 | return map |
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| 87 | |
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| 88 | def _build_plural_units(**kw): |
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| 89 | """ |
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| 90 | Construct names for the given units. Builds singular and plural form. |
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| 91 | """ |
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| 92 | map = {} |
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| 93 | map.update([(name,scale) for name,scale in kw.iteritems()]) |
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| 94 | map.update([(name+'s',scale) for name,scale in kw.iteritems()]) |
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| 95 | return map |
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| 96 | |
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| 97 | def _caret_optional(s): |
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| 98 | """ |
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| 99 | Strip '^' from unit names. |
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| 100 | |
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| 101 | * WARNING * this will incorrect transform 10^3 to 103. |
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| 102 | """ |
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| 103 | s.update((k.replace('^',''),v) |
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| 104 | for k,v in s.items() |
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| 105 | if '^' in k) |
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| 106 | |
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| 107 | def _build_all_units(): |
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| 108 | distance = _build_metric_units('meter','m') |
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| 109 | distance.update(_build_metric_units('metre','m')) |
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| 110 | distance.update(_build_plural_units(micron=1e-6, Angstrom=1e-10)) |
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| 111 | distance.update({'A':1e-10, 'Ang':1e-10}) |
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| 112 | |
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| 113 | # Note: minutes are used for angle |
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| 114 | time = _build_metric_units('second','s') |
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| 115 | time.update(_build_plural_units(hour=3600,day=24*3600,week=7*24*3600)) |
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| 116 | |
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| 117 | # Note: seconds are used for time |
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| 118 | angle = _build_plural_units(degree=1, minute=1/60., |
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| 119 | arcminute=1/60., arcsecond=1/3600., radian=180/math.pi) |
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| 120 | angle.update(deg=1, arcmin=1/60., arcsec=1/3600., rad=180/math.pi) |
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| 121 | |
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| 122 | frequency = _build_metric_units('hertz','Hz') |
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| 123 | frequency.update(_build_metric_units('Hertz','Hz')) |
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| 124 | frequency.update(_build_plural_units(rpm=1/60.)) |
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| 125 | |
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| 126 | # Note: degrees are used for angle |
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| 127 | # Note: temperature needs an offset as well as a scale |
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| 128 | temperature = _build_metric_units('kelvin','K') |
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| 129 | temperature.update(_build_metric_units('Kelvin','K')) |
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[b3efb7d] | 130 | temperature.update(_build_metric_units('Celcius', 'C')) |
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| 131 | temperature.update(_build_metric_units('celcius', 'C')) |
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| 132 | |
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[4bae1ef] | 133 | charge = _build_metric_units('coulomb','C') |
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| 134 | charge.update({'microAmp*hour':0.0036}) |
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| 135 | |
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| 136 | sld = { '10^-6 Angstrom^-2': 1e-6, 'Angstrom^-2': 1 } |
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| 137 | Q = { 'invA': 1, 'invAng': 1, 'invAngstroms': 1, '1/A': 1, |
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| 138 | '10^-3 Angstrom^-1': 1e-3, '1/cm': 1e-8, |
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| 139 | 'nm^-1': 0.1, '1/nm': 0.1, 'n_m^-1': 0.1 } |
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| 140 | |
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| 141 | _caret_optional(sld) |
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| 142 | _caret_optional(Q) |
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| 143 | |
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| 144 | dims = [distance, time, angle, frequency, temperature, charge, sld, Q] |
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| 145 | return dims |
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| 146 | |
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| 147 | class Converter(object): |
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| 148 | """ |
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| 149 | Unit converter for NeXus style units. |
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| 150 | """ |
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| 151 | # Define the units, using both American and European spelling. |
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| 152 | scalemap = None |
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| 153 | scalebase = 1 |
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| 154 | dims = _build_all_units() |
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| 155 | |
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| 156 | # Note: a.u. stands for arbitrary units, which should return the default |
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| 157 | # units for that particular dimension. |
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| 158 | # Note: don't have support for dimensionless units. |
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| 159 | unknown = {None:1, '???':1, '': 1, 'a.u.': 1} |
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| 160 | |
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| 161 | def __init__(self, name): |
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| 162 | self.base = name |
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| 163 | for map in self.dims: |
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| 164 | if name in map: |
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| 165 | self.scalemap = map |
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| 166 | self.scalebase = self.scalemap[name] |
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| 167 | return |
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| 168 | if name in self.unknown: |
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| 169 | return # default scalemap and scalebase correspond to unknown |
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| 170 | else: |
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| 171 | raise KeyError("Unknown unit %s"%name) |
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| 172 | |
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| 173 | def scale(self, units=""): |
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| 174 | if units == "" or self.scalemap is None: return 1 |
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| 175 | return self.scalebase/self.scalemap[units] |
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| 176 | |
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| 177 | def __call__(self, value, units=""): |
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| 178 | # Note: calculating a*1 rather than simply returning a would produce |
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| 179 | # an unnecessary copy of the array, which in the case of the raw |
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| 180 | # counts array would be bad. Sometimes copying and other times |
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| 181 | # not copying is also bad, but copy on modify semantics isn't |
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| 182 | # supported. |
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| 183 | if units == "" or self.scalemap is None: return value |
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| 184 | try: |
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| 185 | return value * (self.scalebase/self.scalemap[units]) |
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| 186 | except KeyError: |
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| 187 | possible_units = ", ".join(str(k) for k in self.scalemap.keys()) |
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| 188 | raise KeyError("%s not in %s"%(units,possible_units)) |
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| 189 | |
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| 190 | def _check(expect,get): |
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| 191 | if expect != get: raise ValueError, "Expected %s but got %s"%(expect,get) |
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| 192 | #print expect,"==",get |
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| 193 | |
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| 194 | def test(): |
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| 195 | _check(1,Converter('n_m^-1')(10,'invA')) # 10 nm^-1 = 1 inv Angstroms |
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| 196 | _check(2,Converter('mm')(2000,'m')) # 2000 mm -> 2 m |
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| 197 | _check(0.003,Converter('microseconds')(3,units='ms')) # 3 us -> 0.003 ms |
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| 198 | _check(45,Converter('nanokelvin')(45)) # 45 nK -> 45 nK |
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| 199 | _check(0.5,Converter('seconds')(1800,units='hours')) # 1800 s -> 0.5 hr |
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| 200 | _check(123,Converter('a.u.')(123,units='mm')) # arbitrary units always returns the same value |
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| 201 | _check(123,Converter('a.u.')(123,units='s')) # arbitrary units always returns the same value |
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| 202 | _check(123,Converter('a.u.')(123,units='')) # arbitrary units always returns the same value |
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| 203 | try: Converter('help') |
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| 204 | except KeyError: pass |
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| 205 | else: raise Exception("unknown unit did not raise an error") |
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| 206 | |
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| 207 | # TODO: more tests |
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| 208 | |
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| 209 | if __name__ == "__main__": |
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| 210 | test() |
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