source: sasview/src/sas/sasgui/plottools/transform.py @ 24f6f4a

ESS_GUIESS_GUI_DocsESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_iss959ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalccostrafo411magnetic_scattrelease-4.1.1release-4.1.2release-4.2.2ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249ticket885unittest-saveload
Last change on this file since 24f6f4a was 8abd96d, checked in by lewis, 8 years ago

Fix error bar calculations

Fixing the error bar calculations also removes the need to scale the y
axis when changing to a Porod or Kratky plot, so commit f2f6af9 has
effectively been reverted.

  • Property mode set to 100644
File size: 8.3 KB
RevLine 
[a9d5684]1import math
[3477478]2
3
[a9d5684]4def toX(x, y=None):
5    """
6    This function is used to load value on Plottable.View
[3477478]7
[a9d5684]8    :param x: Float value
[3477478]9
[a9d5684]10    :return: x
[3477478]11
[a9d5684]12    """
13    return x
14
15
16def toX_pos(x, y=None):
17    """
18    This function is used to load value on Plottable.View
[3477478]19
[a9d5684]20    :param x: Float value
[3477478]21
[a9d5684]22    :return: x
[3477478]23
[a9d5684]24    """
25    if not x > 0:
26        raise ValueError, "Transformation only accepts positive values."
27    else:
28        return x
29
30
31def toX2(x, y=None):
32    """
33    This function is used to load value on Plottable.View
[3477478]34
[a9d5684]35    Calculate x^(2)
[3477478]36
[a9d5684]37    :param x: float value
[3477478]38
[a9d5684]39    """
40    return x * x
41
42
43def fromX2(x, y=None):
44    """
45    This function is used to load value on Plottable.View
46    Calculate square root of x
[3477478]47
[a9d5684]48    :param x: float value
[3477478]49
[a9d5684]50    """
51    if not x >= 0:
52        raise ValueError, "square root of a negative value "
53    else:
54        return math.sqrt(x)
55
56
57def toX4(x, y=None):
58    """
59    This function is used to load value on Plottable.View
[3477478]60
[a9d5684]61    Calculate x^(4)
[3477478]62
[a9d5684]63    :param x: float value
[3477478]64
[a9d5684]65    """
66    return x * x * x * x
67
68
69def fromX4(x, y=None):
70    """
71    This function is used to load value on Plottable.View
72    Calculate square root of x
[3477478]73
[a9d5684]74    :param x: float value
[3477478]75
[a9d5684]76    """
77    if not x >= 0:
78        raise ValueError, "double square root of a negative value "
79    else:
80        return math.sqrt(math.sqrt(x))
[3477478]81
[a9d5684]82
83def toLogX(x, y=None):
84    """
85    This function is used to load value on Plottable.View
86    calculate log x
[3477478]87
[a9d5684]88    :param x: float value
[3477478]89
[a9d5684]90    """
91    if not x > 0:
92        raise ValueError, "Log(x)of a negative value "
93    else:
94        return math.log(x)
[3477478]95
[a9d5684]96def toOneOverX(x, y=None):
97    """
98    """
99    if x != 0:
[3477478]100        return 1 / x
[a9d5684]101    else:
102        raise ValueError, "cannot divide by zero"
[3477478]103
104
[a9d5684]105def toOneOverSqrtX(y, x=None):
106    """
107    """
108    if y > 0:
[3477478]109        return 1 / math.sqrt(y)
[a9d5684]110    else:
111        raise ValueError, "transform.toOneOverSqrtX: cannot be computed"
[3477478]112
113
[a9d5684]114def toLogYX2(y, x):
115    """
116    """
[3477478]117    if (y * (x ** 2)) > 0:
118        return math.log(y * (x ** 2))
[a9d5684]119    else:
120        raise ValueError, "transform.toLogYX2: cannot be computed"
[3477478]121
122
[a9d5684]123def toLogYX4(y, x):
124    """
125    """
126    if (math.pow(x, 4) * y) > 0:
[3477478]127        return math.log(math.pow(x, 4) * y)
[a9d5684]128    else:
[3477478]129        raise ValueError, "transform.toLogYX4: input error"
130
131
[a9d5684]132def toYX4(y, x):
133    """
134    """
135    return math.pow(x, 4) * y
136
[8817d07]137def toYX2(y, x):
138    """
139    """
140    return math.pow(x, 2) * y
[a9d5684]141
142def toLogXY(y, x):
143    """
144    This function is used to load value on Plottable.View
145    calculate log x
[3477478]146
[a9d5684]147    :param x: float value
[3477478]148
[a9d5684]149    """
150    if not (x * y) > 0:
151        raise ValueError, "Log(X*Y)of a negative value "
152    else:
153        return math.log(x * y)
154
155
156def errToX(x, y=None, dx=None, dy=None):
157    """
158    calculate error of x**2
[3477478]159
[a9d5684]160    :param x: float value
161    :param dx: float value
[3477478]162
[a9d5684]163    """
164    if dx == None:
165        dx = 0
166    return dx
167
168
169def errToX_pos(x, y=None, dx=None, dy=None):
170    """
171    calculate error of x**2
[3477478]172
[a9d5684]173    :param x: float value
174    :param dx: float value
[3477478]175
[a9d5684]176    """
177    if dx == None:
178        dx = 0
179    return dx
180
181
182def errToX2(x, y=None, dx=None, dy=None):
183    """
184    calculate error of x**2
[3477478]185
[a9d5684]186    :param x: float value
187    :param dx: float value
[3477478]188
[a9d5684]189    """
190    if  dx != None:
191        err = 2 * x * dx
192        return math.fabs(err)
193    else:
194        return 0.0
[3477478]195
196
[a9d5684]197def errFromX2(x, y=None, dx=None, dy=None):
198    """
199    calculate error of sqrt(x)
[3477478]200
[a9d5684]201    :param x: float value
202    :param dx: float value
[3477478]203
[a9d5684]204    """
[3477478]205    if x > 0:
206        if dx != None:
[a9d5684]207            err = dx / (2 * math.sqrt(x))
208        else:
209            err = 0
210        return math.fabs(err)
211    else:
212        msg = "transform.errFromX2: can't compute error of negative x"
213        raise ValueError, msg
214
215
216def errToX4(x, y=None, dx=None, dy=None):
217    """
218    calculate error of x**4
[3477478]219
[a9d5684]220    :param x: float value
221    :param dx: float value
[3477478]222
[a9d5684]223    """
[3477478]224    if dx != None:
[a9d5684]225        err = 4 * math.pow(x, 3) * dx
226        return math.fabs(err)
227    else:
228        return 0.0
[3477478]229
230
[a9d5684]231def errFromX4(x, y=None, dx=None, dy=None):
232    """
233    calculate error of x^1/4
[3477478]234
[a9d5684]235    :param x: float value
236    :param dx: float value
[3477478]237
[a9d5684]238    """
[3477478]239    if x > 0:
240        if dx != None:
241            err = dx / (4 * math.pow(x, 3 / 4))
[a9d5684]242        else:
243            err = 0
244        return math.fabs(err)
245    else:
246        msg = "transform.errFromX4: can't compute error of negative x"
247        raise ValueError, msg
[3477478]248
249
[a9d5684]250def errToLog10X(x, y=None, dx=None, dy=None):
251    """
252    calculate error of Log(x)
[3477478]253
[a9d5684]254    :param x: float value
255    :param dx: float value
[3477478]256
[a9d5684]257    """
258    if dx == None:
259        dx = 0
[3477478]260
[a9d5684]261    # Check that the point on the graph is positive
262    # within errors
263    if not (x - dx) > 0:
264        msg = "Transformation does not accept"
265        msg += " point that are consistent with zero."
266        raise ValueError, msg
267    if x != 0:
268        dx = dx / (x * math.log(10))
269    else:
270        raise ValueError, "errToLogX: divide by zero"
271    return dx
[3477478]272
273
[a9d5684]274def errToLogX(x, y=None, dx=None, dy=None):
275    """
276    calculate error of Log(x)
[3477478]277
[a9d5684]278    :param x: float value
279    :param dx: float value
[3477478]280
[a9d5684]281    """
282    if dx == None:
283        dx = 0
[3477478]284
[a9d5684]285    # Check that the x point on the graph is zero
286    if x != 0:
[3477478]287        dx = dx / x
[a9d5684]288    else:
289        raise ValueError, "errToLogX: divide by zero"
290    return dx
291
292
[8abd96d]293def errToYX2(y, x, dy=None, dx=None):
[a9d5684]294    """
295    """
296    if dx == None:
297        dx = 0
298    if dy == None:
299        dy = 0
[3477478]300    err = math.sqrt((2 * x * y * dx) ** 2 + ((x ** 2) * dy) ** 2)
[a9d5684]301    return err
[3477478]302
303
[a9d5684]304def errToLogXY(x, y, dx=None, dy=None):
305    """
306    calculate error of Log(xy)
[3477478]307
[a9d5684]308    """
309    # Check that the point on the graph is positive
310    # within errors
[3477478]311    if not (x - dx) > 0 or not (y - dy) > 0:
[a9d5684]312        msg = "Transformation does not accept point "
313        msg += " that are consistent with zero."
314        raise ValueError, msg
[3477478]315    if x != 0 and y != 0:
[a9d5684]316        if dx == None:
317            dx = 0
318        if dy == None:
319            dy = 0
[3477478]320        err = (dx / x) ** 2 + (dy / y) ** 2
[a9d5684]321    else:
322        raise ValueError, "cannot compute this error"
[3477478]323
[a9d5684]324    return math.sqrt(math.fabs(err))
[3477478]325
326
[8abd96d]327def errToLogYX2(y, x, dy=None, dx=None):
[a9d5684]328    """
329    calculate error of Log(yx**2)
[3477478]330
[a9d5684]331    """
332    # Check that the point on the graph is positive
333    # within errors
[3477478]334    if not (x - dx) > 0 or not (y - dy) > 0:
[a9d5684]335        msg = "Transformation does not accept point"
336        msg += " that are consistent with zero."
337        raise ValueError, msg
[3477478]338    if x > 0 and y > 0:
339        if dx == None:
[a9d5684]340            dx = 0
[3477478]341        if dy == None:
[a9d5684]342            dy = 0
[3477478]343        err = (2.0 * dx / x) ** 2 + (dy / y) ** 2
[a9d5684]344    else:
345        raise ValueError, "cannot compute this error"
346    return math.sqrt(math.fabs(err))
[3477478]347
348
[a9d5684]349def errOneOverX(x, y=None, dx=None, dy=None):
350    """
351    calculate error on 1/x
[3477478]352
[a9d5684]353    """
[3477478]354    if x != 0:
[a9d5684]355        if dx == None:
356            dx = 0
[3477478]357        err = dx / x ** 2
[a9d5684]358    else:
359        raise ValueError, "Cannot compute this error"
360    return math.fabs(err)
361
362
363def errOneOverSqrtX(x, y=None, dx=None, dy=None):
364    """
365    Calculate error on 1/sqrt(x)
[3477478]366
[a9d5684]367    """
[3477478]368    if x > 0:
[a9d5684]369        if dx == None:
370            dx = 0
[3477478]371        err = -1 / 2 * math.pow(x, -3.0 / 2.0) * dx
[a9d5684]372    else:
373        raise ValueError, "Cannot compute this error"
374    return math.fabs(err)
375
376
[8abd96d]377def errToLogYX4(y, x, dy=None, dx=None):
[a9d5684]378    """
379    error for ln(y*x^(4))
[3477478]380
[a9d5684]381    :param x: float value
[3477478]382
[a9d5684]383    """
384    # Check that the point on the graph is positive
385    # within errors
386    if (not (x - dx) > 0) or (not (y - dy) > 0):
387        msg = "Transformation does not accept point "
388        msg += " that are consistent with zero."
389        raise ValueError, msg
390    if dx == None:
391        dx = 0
392    if dy == None:
393        dy = 0
[3477478]394    err = math.sqrt((4.0 * dx / x) ** 2 + (dy / y) ** 2)
[a9d5684]395    return err
396
397
[8abd96d]398def errToYX4(y, x, dy=None, dx=None):
[a9d5684]399    """
400    error for (y*x^(4))
[3477478]401
[a9d5684]402    :param x: float value
[3477478]403
[a9d5684]404    """
405    # Check that the point on the graph is positive
406    # within errors
407
408    if dx == None:
409        dx = 0
410    if dy == None:
411        dy = 0
[3477478]412    err = math.sqrt((dy * pow(x, 4)) ** 2 + (4 * y * dx * math.pow(x, 3)) ** 2)
[a9d5684]413    return err
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