Is there a way to draw a simple circle with given radius and center point in irrlicht?
You can use driver->draw2DPolygon() method.
Simply pass vertexCount to be high enough for your size of shape (the smaller circle on the screen, the lower value you can pass and it won't be noticeable that it has edges).
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Given vertices of rectangle and triangle, I can't find or figure out an algorithm that would check if a rectangle (2D, x-y axis aligned, not rotated) is inside a triangle (2D).
The only way I see it is to check if all rectangle points are inside the triangle, but I need the algorithm to be as fast as possible, so maybe there is a faster way to do this.
As both a rectangle and a triangle are convex polygons, it suffices to check that the four corners of the rectangle lie inside the triangle. This can be done by plugging the coordinates of the corners into the implicit equations of the sides and checking the signs.
Maybe using this answer: https://stackoverflow.com/a/21510010/1196549
I am looking for an algorithm for the following problem:
Given:
A 3D triangle mesh. The mesh represents a part of the surface of the earth.
A polyline (a connected series of line segments) whose vertices are always on an edge or on a vertex of a triangle of the mesh. The polyline represents the centerline of a road on the surface of the earth.
I need to calculate and display the road i.e. add half of the road's width on each side of the center line, calculate the resulting vertices in the corresponding triangles of the mesh, fill the area of the road and outline the sides of the road.
What is the simplest and/or most effective strategy to do this? How do I store the data of the road most efficiently?
I see 2 options here:
render thick polyline with road texture
While rendering polyline you need TBN matrix so use
polyline tangent as tangent
surface normal as normal
binormal=tangent x normal
shift actual point p position to
p0=p+d*binormal
p1=p-d*binormal
and render textured line (p0,p1). This approach is not precise match to surface mesh so you need to disable depth or use some sort of blending. Also on sharp turns it could miss some parts of a curve (in that case you can render rectangle or disc instead of line.
create the mesh by shifting polyline to sides by half road size
This produces mesh accurate road fit, but due to your limitations the shape of the road can be very distorted without mesh re-triangulation in some cases. I see it like this:
for each segment of road cast 2 lines shifted by half of road size (green,brown)
find their intersection (aqua dots) with shared edge of mesh with the current road control point (red dot)
obtain the average point (magenta dot) from the intersections and use that as road mesh vertex. In case one of the point is outside shared mesh ignore it. In case both intersections are outside shared edge find closest intersection with different edge.
As you can see this can lead to serious road thickness distortions in some cases (big differences between intersection points, or one of the intersection points is outside surface mesh edge).
If you need accurate road thickness then use the intersection of the casted lines as a road control point instead. To make it possible either use blending or disabling Depth while rendering or add this point to mesh of the surface by re-triangulating the surface mesh. Of coarse such action will also affect the road mesh and you need to iterate few times ...
Another way is use of blended texture for road (like sprites) and compute the texture coordinate for the control points. If the road is too thick then thin it by shifting the texture coordinate ... To make this work you need to select the most far intersection point instead of average ... Compute the real half size of the road and from that compute texture coordinate.
If you get rid of the limitation (for road mesh) that road vertex points are at surface mesh segments or vertexes then you can simply use the intersection of shifted lines alone. That will get rid of the thickness artifacts and simplify things a lot.
I was just wondering if someone know of any papers or resources on generating synthetic images of growth rings in trees. Im thinking 2d scalar-fields or some other data representation which can then be used to render growth rings like images :)
Thanks!
never done or heard about this ...
If you need simulation then search for biology/botanist sites instead.
If you need just visually close results then I would:
make a polygon covering the cut (circle/oval like shape)
start with circle and when all working try to add some random distortion or use ellipse
create 1D texture with the density
it will be used to fill the polygon via triangle fan. So first find an image of the tree type you want to generate for example this:
Analyze the color and intensity as a function of diameter so extract a pie like piece (or a thin rectangle)
and plot a graph of R,G,B values to see how the rings are shaped
then create function that approximate that (or use piecewise interpolation) and create your own texture as function of tree age. You can interpolate in this way booth the color and density of rings.
My example shows that for this tree the color is the same so only its intensity changes. In this case you do not need to approximate all 3 functions. The bumps are a bit noisy due to another texture layer (ignore this at start). You can use:
intensity=A*|cos(pi*t)| as a start
A is brightness
t is age in years/cycles (and also the x coordinate (scaled) in your 1D texture)
so take base color R,G,B multiply it by A for each t and fill the texture pixel with this color. You can add some randomness to ring period (pi*t) and also the scale can be matched more closely. This is linear growth ,... so you can use exponential instead or interpolate to match bumps per length affected by age (distance form t=0)...
now just render the polygon
mid point is the t=0 coordinate in texture each vertex of polygon is t=full_age coordinate in texture. So render the triangle fan with these texture coordinates. If you need more close match (rings are not the same thickness along the perimeter) then you can convert this to 2D texture
[Notes]
You can also do this incrementally so do just one ring per iteration. Next ring polygon is last one enlarged or scaled by scale>1 and add some randomness, but this needs to be rendered by QUAD STRIP. You can have static texture for single ring so interpolate just the density and overall brightness:
radius(i)=radius(i-1)+ring_width=radius(i-1)*scale
so:
scale=(radius(i-1)+ring_width)/radius(i-1)
I am making this game where a sprite of a circle( origin set at the center of the sprite) is being up-scaled and rotated simultaneously. What I need to determine is the change in the radius of the circle in relation to scaling.How do I go about doing that? What exactly does scaling do? I mean what does 2x scale mean? does it mean my sprite has twice the area than previous? Btw , I am using LibGDX.
I figured it out myself.The problem was that the bounding rectangle of a sprite changes in size as the sprite is being rotated.So the raidous of the circle can not be determined using the with of the rectangle at that time. What I found was that the width of the bounding rectangle is the product of the scale and the initial width .So I can calculate what the width would be at any instance from that even if the sprite is rotating. And I get the radius from that.
I'm using DirectX10 to simulate a water surface, and I'm now with a height map,which is a 2D array of the heights(y) at the points (x,z). But to draw it on the screen, I must turn it into a mesh or have a index to draw triangle topology.
But the data is too large to do it manually. Are there any methods for me to draw it on the screen. I hope it's easy to implement. If there is function included in DirectX10 which can make it, the it's the best one for me.
Create a mesh that format a grid of squares (each made of two triangles) and set all vertices y = 0. In the vertex shader sample the heightmap and add the value stored in the heightmap to the y of the vertice.
This might help you.
P.S: If the area you want it to cover is too big you should take a look at terrain LOD techniques (should work the same for water).
I'm sure you can make a mesh out of it. I doubt you can generate the heightmap for a water surface that is too large to "meshify".
Why are you looking at Diamond square. For a 512x512 heightmap all you need to do is define a set of point and then generate the triangles for it. Its really very simple.