# Tag Info

13

Hint: For each row, you need to first print some spaces and then print some stars. The number of spaces should decrease by one per row, while the number of stars should increase. For the centered output, increase the number of stars by two for each row.

8

Code for Custom Linear Layout (I modified your code so its easier for you to understand) import android.content.Context; import android.graphics.Canvas; import android.graphics.Color; import android.graphics.Paint; import android.graphics.Paint.Style; import android.graphics.Path; import android.graphics.Point; import android.util.AttributeSet; import ...

6

Try Delaunay triangulation, then remove any edges which are too long. From the above article, you see a link to CGAL's 2D triangulation page.

5

Ilmari Karonen has good advice, and I'd just like to generalize it a bit. In general, before you ask "how can I get a computer to do this?" ask "how would I do this?" So, if someone gave you an empty Word document and asked you to create the triangles, how would you go about doing it? Whatever solution you come up with, it's usually not hard to translate it ...

3

If you are wanting a drawable you can use, try this http://looksok.wordpress.com/2013/08/24/android-triangle-arrow-defined-as-an-xml-shape/ sadly I can't claim credit

3

This function determines the maximum possible hypoteneuse that could be paired with a leg in a perfect triple, then uses your function to actually search for the triples: from fractions import gcd def generateTriples(limit): for n in xrange(1, limit): if (n**2 + (n+1)**2 > limit): break for m in xrange(n+1, limit, 2): ...

3

Most 3D modelling tools store their meshes into a list of triangles, but usually into their own custom format. Fortunately there are a few formats that are very easy to write a parser to import into OpenGL|ES. Since most tools require a paid version, I would advise to go with a free one, like blender and export the model of choice using wavefront format, ...

2

First, generate all possible edges (i.e. connecting a pair of vertices that are closer than the constant). Then when two of them intersect, remove one of them. Repeat this step until there are no intersections. This solution is quite primitive, it's probably possible to do it faster.

2

i figured it out .... This is working for me ..not sure if it is geralized way to do it static float a , b , h ; static Vector3 MinV = new Vector3(0f, 0f, 0f); static Vector3 MaxV = new Vector3(a, b, h); Vector3 topLeftBack = new Vector3(MinV.X, MaxV.Y, MinV.Z); Vector3 topRightBack = new Vector3(MaxV.X, MaxV.Y, MinV.Z); ...

2

If you're not tied to any particular software, open your data set in ParaView (paraview.org) or ParaViewGeo (paraviewgeo.mirarco.org). Both have a filter called Slice that does excactly what you're talking about and both allow you to save your data back out. ParaViewGeo supports data formats (GoCad, DataMine, and others) commonly used by the ...

2

For the right triangle, for each row : First: You need to print spaces from 0 to rowNumber - 1 - i. Second: You need to print \* from rowNumber - 1 - i to rowNumber. Note: i is the row index from 0 to rowNumber and rowNumber is number of rows. For the centre triangle: it looks like "right triangle" plus adding \* according to the row index (for ex : ...

1

Please find the solution to your problem, with explanation comments. public static void main(String[] args) throws Exception { // initialize n int n = 4; // initialize x to 1 from where our printing will start. int x = 1; /* We will store our generated numbers in an array. * For example, the array after ...

1

I don't really know what you mean by "corner composition", but I suppose this is to obtain triangles not too sharp. I suppose also that your problem can then be abstracted to the triangulation of a contour? If so, I am sure you can find plenty of methods on the net. One method I would try would be: fill in your contour with points. The density of your ...

1

for long distance: http://www.dtcenter.org/met/users/docs/write_ups/gc_simple.pdf but for short distance You can try simple 2d math to simulate "classic" compass using: http://en.wikipedia.org/wiki/Compass#Using_a_compass. For example you can get pixel coordinates from points A and B and find angle between line connecting those points and vertical line. ...

1

Use a different triangulator. poly2tri looks promising.

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