source: sasview/src/sas/perspectives/simulation/ShapeAdapter.py @ 5e880fe1

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-4.2.2release_4.0.1ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249ticket885unittest-saveload
Last change on this file since 5e880fe1 was 79492222, checked in by krzywon, 10 years ago

Changed the file and folder names to remove all SANS references.

  • Property mode set to 100644
File size: 5.0 KB
RevLine 
[eaeb13e]1"""
2This software was developed by the University of Tennessee as part of the
3Distributed Data Analysis of Neutron Scattering Experiments (DANSE)
4project funded by the US National Science Foundation.
5
6See the license text in license.txt
7
8copyright 2009, University of Tennessee
9"""
[79492222]10import sas.realspace.VolumeCanvas as VolumeCanvas
[eaeb13e]11
12class ShapeVisitor:
13    """
14        The shape visitor process a GUI object representing
15        a shape and returns a shape description that can be
16        processed by the VolumeCanvas.
17    """
18   
19    def __init__(self):
20        """
21            Initialize visitor
22        """
23        ## Place holder for the simulation canvas
24        self.sim_canvas = None
25   
26    def fromCylinder(self, cyl):
27        """
28            Create a simulation cylinder descriptor (computation)
29            from the information produced by the GUI
30            @param cyl: Cylinder object from the GUI canvas
31            @return: VolumeCanvas.CylinderDescriptor object
32        """
[79492222]33        from sas.realspace.VolumeCanvas import CylinderDescriptor
[eaeb13e]34        desc = CylinderDescriptor()
35         
36        desc.params["center"] = [cyl.x, cyl.y, cyl.z]
37        # Orientation are angular offsets in degrees with respect to X, Y, Z
38        desc.params["orientation"] = [cyl.theta_x, cyl.theta_y, cyl.theta_z]
39        desc.params["order"] = cyl.params["order"]
40       
41       
42        # Length of the cylinder
43        desc.params["length"] = cyl.params["length"]
44        # Radius of the cylinder
45        desc.params["radius"] = cyl.params["radius"]
46        # Constrast parameter
47        desc.params["contrast"] = cyl.params["contrast"]
48       
49        return desc
50   
51    def fromSphere(self, sph):
52        """
53            Create a simulation sphere descriptor (computation)
54            from the information produced by the GUI
55            @param sph: Sphere object from the GUI canvas
56            @return: VolumeCanvas.SphereDescriptor object
57        """
[79492222]58        from sas.realspace.VolumeCanvas import SphereDescriptor
[eaeb13e]59        desc = SphereDescriptor()
60         
61        desc.params["center"] = [sph.x, sph.y, sph.z]
62        desc.params["order"] = sph.params["order"]
63        # Radius of the sphere
64        desc.params["radius"] = sph.params["radius"]
65        # Constrast parameter
66        desc.params["contrast"] = sph.params["contrast"]
67       
68        return desc
69   
70    def update_sphere(self, sph):
71        """
72            Update a shape description in the simulation canvas (computation)
73            according to the new parameters of the GUI canvas.
74            @param sph: Sphere object from the GUI canvas
75        """
76        # Check class
77        if self.sim_canvas.shapes[sph.name].__class__.__name__=="SphereDescriptor":
78            desc = self.sim_canvas.shapes[sph.name]
79           
80            desc.params["center"] = [sph.x, sph.y, sph.z]
81            desc.params["order"] = sph.params["order"]
82            # Radius of the sphere
83            desc.params["radius"] = sph.params["radius"]
84            # Constrast parameter
85            desc.params["contrast"] = sph.params["contrast"]
86           
87            self.sim_canvas._model_changed()
88        else:
89            raise ValueError, "SimShapeVisitor: Wrong class for visited object"
90       
91       
92       
93    def update_cylinder(self, cyl):
94        """
95            Update a shape description in the simulation canvas (computation)
96            according to the new parameters of the GUI canvas.
97            @param cyl: Cylinder object from the GUI canvas
98        """
99        # Check class
100        if self.sim_canvas.shapes[cyl.name].__class__.__name__=="CylinderDescriptor":
101            desc = self.sim_canvas.shapes[cyl.name]
102           
103            desc.params["center"] = [cyl.x, cyl.y, cyl.z]
104            # Orientation are angular offsets in degrees with respect to X, Y, Z
105            desc.params["orientation"] = [cyl.theta_x, cyl.theta_y, cyl.theta_z]
106            desc.params["order"] = cyl.params["order"]
107           
108            # Length of the cylinder
109            desc.params["length"] = cyl.params["length"]
110            # Radius of the cylinder
111            desc.params["radius"] = cyl.params["radius"]
112            # Constrast parameter
113            desc.params["contrast"] = cyl.params["contrast"]
114           
115            self.sim_canvas._model_changed()
116        else:
117            raise ValueError, "SimShapeVisitor: Wrong class for visited object"
118       
119   
120    def update(self, volCanvas, shape):
121        """
122            Update the shape descriptor in the VolumeCanvas
123            corresponding to the given 'shape' parameter
124           
125            @param volCanvas: VolumeCanvas object
126            @param shape: SimCanvas.BaseShape object
127        """
128        if shape.name in volCanvas.getShapeList():
129            self.sim_canvas = volCanvas
130            shape.accept_update(self)
131        else:
132            raise ValueError, "ShapeAdapter: Shape [%s] not in list" % shape.name
133
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