Difference between revisions of "User:Tohline/vtk/Quadric"
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In the workflow image displayed above, the vtkQuadric module has been highlighted, so the inset window to the right of the workflow pipeline displays the values of the 10 separate model coefficients that have been used to generate the default "Quadric" configuration. Presumably, these values correspond, respectively, to coefficients <math>~a0, a1, a2, a3 \ldots a9</math> as they appear in the quadric function definition as provided in the default module documentation and as reprinted here: | |||
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</table> | </table> | ||
We conclude that the default image displayed above illustrates geometric properties of an underlying scalar field that has been generated from the function, | |||
<div align="center"> | <div align="center"> | ||
<table border="0" cellpadding="5" align="center"> | <table border="0" cellpadding="5" align="center"> | ||
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<tr> | <tr> | ||
<td align="right"> | <td align="right"> | ||
<math>~ | <math>~F_0(x,y,z)</math> | ||
</td> | </td> | ||
<td align="center"> | <td align="center"> | ||
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===vtkContourFilter=== | ===vtkContourFilter=== | ||
As is explained at the top of p. 78 of the [http://www.kitware.com/products/books/vtkguide.html ''VTK User's Guide''], five different contours — that is five different surfaces differentiated from one another by color — have been drawn. The ''specific'' set of surfaces has been specified via the "GenerateValues" method inside the vtkContourFilter module. Clicking on (''i.e.,'' highlighting) the vtkContourFilter module in the VisTrails workflow reveals that three numbers have been specified: | As is explained at the top of p. 78 of the [http://www.kitware.com/products/books/vtkguide.html ''VTK User's Guide''], five different contours — that is, five different surfaces differentiated from one another by color — have been drawn. The ''specific'' set of surfaces has been specified via the "GenerateValues" method inside the vtkContourFilter module. Clicking on (''i.e.,'' highlighting) the vtkContourFilter module in the VisTrails workflow reveals that three numbers have been specified: | ||
* Two floating-point numbers identify the "scalar range" — in the default case, the specified range is <math>0.0 \rightarrow 1.2</math>; | * Two floating-point numbers identify the "scalar range" — in the default case, the specified range is <math>0.0 \rightarrow 1.2</math>; | ||
* The single integer identifies the "number of contours to be generated in the range (end values inclusive). | * The single integer identifies the "number of contours to be generated in the range (end values inclusive). | ||
We conclude that the five separately colored "surfaces" correspond to contours for which the function, <math>~ | We conclude that the five separately colored "surfaces" correspond to contours for which the function, <math>~F_0(x,y,z)</math>, is constant and has the following values: | ||
<table border="1" cellpadding="5" align="center"> | <table border="1" cellpadding="5" align="center"> | ||
<tr> | <tr> | ||
Revision as of 22:16, 16 September 2015
Generating Spheroids, Ellipsoids, and Quadrics
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Getting Started
Here we explore the vtkQuadric method, which has been used to generate Figure 5-2 (§5.1, p. 77) of the VTK User's Guide, authored and published by Kitware, Inc., in an effort to learn how to draw two-dimensional spheroidal structures, three-dimensional ellipsoidal structures, and other analytically specifiable configurations.
1. Inside VisTrails, open, then execute "VisQuad.vt" without making any changes to the default pipeline or to any module parameters:
- Follow this directory path: VisTrails/examples/vtk_examples/VisualizationAlgorighms/VisQuad.vt
- The default workflow pipeline is shown in the top panel of the following figure. Upon execution, the default composite image that pops up in the VisTrails spreadsheet window is shown in the bottom panel.
| Figure 1: Default |
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Various Modules
vtkQuadric
In the workflow image displayed above, the vtkQuadric module has been highlighted, so the inset window to the right of the workflow pipeline displays the values of the 10 separate model coefficients that have been used to generate the default "Quadric" configuration. Presumably, these values correspond, respectively, to coefficients <math>~a0, a1, a2, a3 \ldots a9</math> as they appear in the quadric function definition as provided in the default module documentation and as reprinted here:
| vtkQuadric Module Documentation |
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vtkQuadric - evaluate implicit quadric function Superclass: vtkImplicitFunction vtkQuadric evaluates the quadric function F(x,y,z) = a0*x^2 + a1*y^2 + a2*z^2 + a3*x*y + a4*y*z + a5*x*z + a6*x + a7*y + a8*z + a9. vtkQuadric is a concrete implementation of vtkImplicitFunction. |
We conclude that the default image displayed above illustrates geometric properties of an underlying scalar field that has been generated from the function,
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<math>~F_0(x,y,z)</math> |
<math>~=</math> |
<math>~\frac{x^2}{2} + y^2 + \frac{z^2}{5} + \frac{yz}{10} + \frac{y}{5}\, .</math> |
vtkContourFilter
As is explained at the top of p. 78 of the VTK User's Guide, five different contours — that is, five different surfaces differentiated from one another by color — have been drawn. The specific set of surfaces has been specified via the "GenerateValues" method inside the vtkContourFilter module. Clicking on (i.e., highlighting) the vtkContourFilter module in the VisTrails workflow reveals that three numbers have been specified:
- Two floating-point numbers identify the "scalar range" — in the default case, the specified range is <math>0.0 \rightarrow 1.2</math>;
- The single integer identifies the "number of contours to be generated in the range (end values inclusive).
We conclude that the five separately colored "surfaces" correspond to contours for which the function, <math>~F_0(x,y,z)</math>, is constant and has the following values:
| Contour Color: | red | yellow | green | light blue | dark blue |
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| Associated Scalar Value: | 0.0 | 0.3 | 0.6 | 0.9 | 1.2 |