source: sasview/src/sas/sascalc/simulation/pointsmodelpy/tests/testlores2d.py @ 9c3d784

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Last change on this file since 9c3d784 was 9c3d784, checked in by andyfaff, 8 years ago

MAINT: using print function

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1def test_lores2d(phi):
2  from sasModeling.pointsmodelpy import pointsmodelpy
3  from sasModeling.iqPy import iqPy
4  from sasModeling.geoshapespy import geoshapespy
5
6  #lores model is to hold several geometric objects
7  lm = pointsmodelpy.new_loresmodel(0.1)
8
9  #generate single geometry shape
10  c = geoshapespy.new_cylinder(10,40)
11  geoshapespy.set_center(c,1,1,1)
12  geoshapespy.set_orientation(c,0,0,0)
13
14  #add single geometry shape to lores model
15  pointsmodelpy.lores_add(lm,c,3.0)
16
17  #retrieve the points from lores model for sas calculation
18  vp = pointsmodelpy.new_point3dvec()
19  pointsmodelpy.get_lorespoints(lm,vp)
20
21  #Calculate I(Q) and P(r) 2D
22  pointsmodelpy.distdistribution_xy(lm,vp)
23  pointsmodelpy.outputPR_xy(lm,"out_xy.pr")
24  iq = iqPy.new_iq(100,0.001, 0.3)
25  pointsmodelpy.calculateIQ_2D(lm,iq,phi)
26  iqPy.OutputIQ(iq, "out_xy.iq")
27
28def get2d():
29  from math import pi
30  from Numeric import arange,zeros
31  from enthought.util.numerix import Float,zeros
32  from sasModeling.file2array import readfile2array
33  from sasModeling.pointsmodelpy import pointsmodelpy
34  from sasModeling.geoshapespy import geoshapespy
35
36  lm = pointsmodelpy.new_loresmodel(0.1)
37  sph = geoshapespy.new_sphere(20)
38  pointsmodelpy.lores_add(lm,sph,1.0)
39
40  vp = pointsmodelpy.new_point3dvec()
41  pointsmodelpy.get_lorespoints(lm,vp)
42
43  pointsmodelpy.distdistribution_xy(lm,vp)
44
45  value_grid = zeros((100,100),Float)
46  width, height = value_grid.shape
47  print(width,height)
48
49  I = pointsmodelpy.calculateI_Qxy(lm,0.00001,0.000002)
50  print(I)
51
52  Imax = 0
53  for i in range(width):
54    for j in range(height):
55      qx = float(i-50)/200.0
56      qy = float(j-50)/200.0
57      value_grid[i,j] = pointsmodelpy.calculateI_Qxy(lm,qx,qy)
58      if value_grid[i][j] > Imax:
59        Imax = value_grid[i][j]
60
61  for i in range(width):
62    for j in range(height):
63      value_grid[i][j] = value_grid[i][j]/Imax
64
65  value_grid[50,50] = 1
66  return value_grid
67
68def get2d_2():
69  from math import pi
70  from Numeric import arange,zeros
71  from enthought.util.numerix import Float,zeros
72  from sasModeling.file2array import readfile2array
73  from sasModeling.pointsmodelpy import pointsmodelpy
74  from sasModeling.geoshapespy import geoshapespy
75
76  lm = pointsmodelpy.new_loresmodel(0.1)
77  cyn = geoshapespy.new_cylinder(5,20)
78  geoshapespy.set_orientation(cyn,0,0,90)
79  pointsmodelpy.lores_add(lm,cyn,1.0)
80
81  vp = pointsmodelpy.new_point3dvec()
82  pointsmodelpy.get_lorespoints(lm,vp)
83
84  pointsmodelpy.distdistribution_xy(lm,vp)
85
86  value_grid = zeros((100,100),Float)
87  width, height = value_grid.shape
88  print(width,height)
89
90  I = pointsmodelpy.calculateI_Qxy(lm,0.00001,0.000002)
91  print(I)
92
93  Imax = 0
94  for i in range(width):
95    for j in range(height):
96      qx = float(i-50)/200.0
97      qy = float(j-50)/200.0
98      value_grid[i,j] = pointsmodelpy.calculateI_Qxy(lm,qx,qy)
99      if value_grid[i][j] > Imax:
100        Imax = value_grid[i][j]
101
102  for i in range(width):
103    for j in range(height):
104      value_grid[i][j] = value_grid[i][j]/Imax
105
106  value_grid[50,50] = 1
107  return value_grid
108 
109if __name__ == "__main__":
110
111  print("start to test lores 2D")
112#  test_lores2d(10)
113  value_grid = get2d_2()
114  print(value_grid)
115  print("pass")
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