Difference between revisions of "DSP"
(→Creating a DSP object from manual or programmatic generation of data) |
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http://en.wikipedia.org/wiki/Shapefile | http://en.wikipedia.org/wiki/Shapefile | ||
− | We will use | + | We will use one of two Perl modules, Geo::Shapelib or Geo::ShapeFile, and write a Perl program to manipulate the shapefile data to produce the desired dsp object. The Perl modules are available on CPAN here: |
http://search.cpan.org/dist/Geo-Shapelib/Shapelib.pm | http://search.cpan.org/dist/Geo-Shapelib/Shapelib.pm | ||
+ | |||
+ | http://search.cpan.org/~jasonk/Geo-ShapeFile-2.51/ShapeFile.pm | ||
Our program (tentatively named 'manip-shapefile.pl') will be made available in the BRL-CAD package. | Our program (tentatively named 'manip-shapefile.pl') will be made available in the BRL-CAD package. | ||
[TO BE CONTINUED] | [TO BE CONTINUED] |
Revision as of 20:51, 7 June 2012
Contents
Displacement (DSP) map primitive
Creating a DSP object from miscellaneous images
We will use two examples to illustrate the next few sections.
1. A black and white (gray scale) image (png format):
with properties:
$ file Class65-150h.png Class65-150h.png: PNG image, 142 x 150, 8-bit gray+alpha, non-interlaced
2. A color png file:
with properties:
$ file Cs-24-150h.png Cs-24-150h.png: PNG image, 152 x 150, 8-bit/color RGBA, non-interlaced
Preparing your height field data
The DSP takes unsigned short (16-bit) integer data. Our various command-line data converters can help bring data in from pretty much any existing format, including image data, via various processing commands. If the data was in png image format, for example (which is basically 3-channel 8-bit integer data), the data could be prepared with a combination of 'png-pix', 'pix-bw', and 'cv'.
If you type the 'in' command, it will prompt you for each parameter individually and that should help some. For the DSP, the main parameters are: the source of the height data, the width (number of points in the Y direction) and length (number of points in the X direction) of the input data, width/length/height scaling factors, and whether to smoothly interpolate between cells (0 = do not interpolate, 1 = interpolate).
See the 'dsp_add' tool for combining two existing DSP data files into one.
A DSP primitive is an array of cells initially defined by points in the XY plane as positive heights from Z = 0. The DSP can then be transformed to other orientations and positions. The number of cells is (numX * numY).
The data format for the DSP primitive is network-ordered unsigned short integers (nu16). BRL-CAD has a couple of dozen tools that you can use for converting existing data into that raw format, such as the 'cv' command or the 'bw-d' and 'd-u' commands among other similar tool chains. If you use the cv command, the output format is "nus" for network unsigned shorts.
Using the two examples to convert the data to dsp format.
Example 1.
Convert it to a bw file (one pixel is one unsigned char):
$ png-bw Class65-150h.png > Class65-150h.bw
View the result:
$ bw-fb -w142 -n150 Class65-150h.bw
Convert it to the format required for a dsp file (nu16):
$ cv huc nu16 Class65-150h.bw Class65-150h.dsp
Example 2.
Convert it to a pix file (one pixel is defined by three unsigned chars):
$ png-pix Cs-24-150h.png > Cs-24-150h.pix
View the result:
$ pix-fb -w152 -n150 Cs-24-150h.pix
Convert it to a bw file (one pixel is one unsigned char):
$ pix-bw Cs-24-150h.pix > Cs-24-150h.bw
View the result:
$ bw-fb -w152 -n150 Cs-24-150h.bw
Convert it to the format required for a dsp file:
$ cv huc nu16 Cs-24-150h.bw Cs-24-150h.dsp
Importing DSP data into a .g file
Example 1.
In mged create a dsp object:
mged> in dsp.s dsp f Class65-150h.dsp 142 150 0 ad 1 0.005
Example 2.
In mged create a dsp object:
mged> in dsp2.s dsp f Cs-24-150h.dsp 152 150 0 ad 1 0.005
Rendering your DSP
Example 1.
mged> B dsp.s mged> ae 45 45 mged> rt
You should see something like this:
You can play around with the scaling factors (the end pair: 1 - cell width, 0.005 - cell height) to improve the looks of the image.
Example 2.
mged> B dsp2.s mged> ae 45 45 mged> rt
You should see something like this:
Again, you could play with various parameters to get the desired look.
Creating a DSP object from manual or programmatic generation of data
Now let's consider a more practical example and a real test of BRL-CAD. We can import topological data and produce a realistic ground surface. There are many free sources of such data. See this site for a start:
http://www.naturalgfx.com/free_topo_gis.htm
We started with shape file data for the US from:
http://seamless.usgs.gov/data_availability.php?serviceid=Dataset_19
We downloaded the zip archive 'ned_19_arc.zip' and unzipped in its own directory:
$ mkdir ned_19_usa_arcgis_shapefile $ mv ned_19_arc.zip ned_19_usa_arcgis_shapefile $ cd ned_19_usa_arcgis_shapefile $ unzip ned_19_arc.zip Archive: ned_19_arc.zip inflating: ned_19_arc.dbf inflating: ned_19_arc.pdf inflating: ned_19_arc.prj inflating: ned_19_arc.sbn inflating: ned_19_arc.sbx inflating: ned_19_arc.shp inflating: ned_19_arc.shp.xml inflating: ned_19_arc.shx inflating: ned_19_arc.txt inflating: ned_19_arc.xml inflating: NED_DataDictionary2006.pdf
See this page for a reference to the shapefile format:
http://en.wikipedia.org/wiki/Shapefile
We will use one of two Perl modules, Geo::Shapelib or Geo::ShapeFile, and write a Perl program to manipulate the shapefile data to produce the desired dsp object. The Perl modules are available on CPAN here:
http://search.cpan.org/dist/Geo-Shapelib/Shapelib.pm
http://search.cpan.org/~jasonk/Geo-ShapeFile-2.51/ShapeFile.pm
Our program (tentatively named 'manip-shapefile.pl') will be made available in the BRL-CAD package.
[TO BE CONTINUED]