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The question is too general and I cannot be sure about the meaning of the matrix in every context. However, mathematically, when you represent a coordinate system with a matrix, the matrix is the one you use to change a vector from that coordinate system to the so called canonical system where a vector (x,y,z) corresponds to the basis E = {(1,0,0), (0,1,0), ...

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The ribbon function does what you want, except that it only shows the top part: >> ribbon(peaks(15)) %// using the `peaks` function as an example

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It's a simple use of the cross-product and scalar-product: You first find a normal vector N of the plane spanned by those points. This is done via the cross product of B-A and O-A. Then the directional vector AP can be found as the cross product of N and B-A. For finding the angle we take the scalar product of the normalized vectors AP and AO, apply acos ...

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First, this suggests that vertex coordinates can be negative. However what I don't understand is that technically at that stage vertex coordinates are in raster space, and all triangles should have been clipped before. Thus technically there should only be vertex coordinates in the range [0, image width] for the x-coordinate and [0, image height] for ...

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You can use the PickResult class from any MouseEvent, this is just the basic usage .. ...{ shape3D.setOnMouseEntered(e->{ PickResult pr = e.getPickResult(); System.out.println(pr.getIntersectedPoint()); }); }

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Now you drawing each pixel as SCNBox of certain color, that means: one GL draw per box drawing of unnecessary two invisible faces between adjancent boxes drawing N of same 1x1x1 boxes in a row when one box of 1x1xN can be drawn Seems like common Minecraft-like optimization problem: Treat your image is 3-dimensional array (where depth is wanted image ...

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An approach similar to the one proposed by Ef Dot: To keep the number of draw calls as small as possible you want to keep the number of materials as small as possible. Here you will want one SCNMaterial per color. To keep the number of draw calls as small as possible make sure that no two geometry elements (SCNGeometryElement) use the same material. In ...

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to build an icosahedron you can use SCNSphere and set its geodesic property to YES. Using shader modifiers to draw the wireframe (as described in Stroke Width with a SceneKit line primitive type) is a good idea. But in your case lines are not always plain or dotted — it depends on the orientation of the icosahedron. To solve that you can rely on ...

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Since you are embedding the Text node in a styled border pane, and rendering both in the scene, setting also the cache for the border pane really helps. borderPane.setCache(true); You will go from this: to this: Also, you can set this hint, to improve resolution. borderPane.setCacheHint(CacheHint.SCALE_AND_ROTATE);

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Might not look like much, but the first three if statements eliminate all of the calls to fabs as well as replacing the inner if statements in the posted code. The final if/else takes a maximum of two compares/branches to determine the answer. if ( point.x < 0 ) { x = -point.x; fx = 1; } else { x = point.x; fx = 0; } if ( point.y < 0 ...

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I disagree with the recommendation you found to avoid RGB formats. I can't think of a good reason to avoid RGB textures. Some GPUs support them natively, many other do not. You have two scenarios: The GPU does not support RGB textures. It will use a format that is largely equivalent to RGBA for storage, and ignore the A component during sampling. The GPU ...

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You can keep the 3 for loops. Just check the bounds in each dimension and calculate the index by nested addition/multiplication. for (int i1 = -1; i1 <= 1; ++i1) { for (int i2 = -1; i2 <= 1; ++i2) { for (int i3 = -1; i3 <= 1; ++i3) { const int x1 = p1 + i1; const int x2 = p2 + i2; const int x3 = p3 + ...

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In this example the world coordinates are defined by the checkerboard. The checkerboard defines the X-Y plane, and the Z-axis points into the checkerboard, as explained in the documentation: Since your 3D points are above the checkerboard, they have negative Z-coordinates.

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One way to do it is to write a family of equations that describes all of the points in space that are collinear with p1 and p2. x = x1*t + x2*(1-t) y = y1*t + y2*(1-t) z = z1*t + z2*(1-t) ... Where x1,y1,z1 are the coordinates of p1, ditto for p2, and t is any real number. We can find the coordinates of our particular desired point by solving for t. We ...

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Express that the center of the sphere is equidistant to the three given points and coplanar with them (assuming that the three given points are on a great circle). (X - Xa)² + (Y - Ya)² + (Z - Za)² = R² (X - Xb)² + (Y - Yb)² + (Z - Zb)² = R² (X - Xc)² + (Y - Yc)² + (Z - Zc)² = R² |X Y Z 1| |Xa Ya Za 1| |Xb Yb Zb 1| = 0 |Xc Yc Zc 1| ...

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Instead of cylinder to sphere mapping I would do a sphere triangulation... I would first start with 2 hexagons each start at pole and end on the equator or do the half only and mirror the other when all done... then recursively subdivide the triangles so divide lines to half change the mid point coordinate to align with sphere surface this will create ...

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The Three.js editor. Converter. Blender exporter. Clara.io. Various other converters and exporters

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I am turning my comment into an answer. I suggest to use mayavi and contour3d for this task. You can always rewrite your implicit function to be f(x,y,z)=0. For a sphere we have x^2 + y^2 + z^2 = r^2, that can be rewritten as f(x,y,z) = x^2 + y^2 + z^2 - r^2 = 0. Below, some examples import numpy as np from mayavi import mlab mlab.clf() x, y, z = ...

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OK I figured out my own issue. So For any one that stumbles upon this ill explain what exactly is happening and how to fix it. Simply put my question is how to convert from world space (x, y, z planes) to local space (relative x y z planes). So if you were to take an arrow and face it in the direction of 0 x 0 y 0 z, where as its origin was in positive ...

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Matrices define linear transformations between vector spaces. All linear transformations map the origin of the domain to the origin of the range. Therefore 3x3 matrices cannot perform translation on 3D vectors since the origin in one space cannot be mapped to anything but the origin on another using linear maps. To overcome this problem, we can fake the ...

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The upper left 3x3 block gives the rotation of the coordinate system, the upper 3 coordinates of the last column give the translation vector. The general idea of this affine parametrization is that for the transformation one multiplies [ x, y, z, 1 ]^T from the right.

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Am I correct in assuming that if I have an RGB image and I want a RGBA representation, it is suffice to specigy the internalformat parameter as GL_RGBA and the format parameter as GL_RGB? Would there be an internal conversion between the formats when generating the texture? This will work, and GL will assign a constant 1.0 to the alpha component for ...

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I believe this might be an effect of how WPF 3D handles opacity. I've had similar issues with other Visual3Ds. Have a look at Transparency in WPF 3D. Basically you have to add opaque and transparent objects in the correct order. Try adding the opaque objects last. I.e. add the LinesVisual3D you're having issues with, then add the things with lower opacity. ...

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I also had same confusion like you but after scrolling reference page of Processing.org I found couple of commands which can effected on STL Object in positive way. some command are: directionalLight nostroke scale Increases or decreases the size of a shape by expanding and contracting vertices Your above issue is directly linked with these commands ...

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Let's we have non-collinear points A, B, C. 1. Generate two random values t and u in range 0..1. We can use these values to get uniform distribution in parallelogram formed by vectors AB and AC. To get uniform distribution in triangle, we reflect points which hit the second triangle, about parallelogram diagonal (if-branch of pseudocode) t = random ( 0, 1 ...

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class CompareDistance { public float DistanceToCameraPlane(Vector3 pointInSpace) { var cameraPosition = Camera.main.transform.position; var cameraForward = Camera.main.transform.forward; var deltaToCamera = pointInSpace - cameraPosition; var projection = Vector3.Project(deltaToCamera, cameraForward); return ...

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Your code looks good. You can shorten it somewhat to this: void position_from_plane(float r_co[3], const float p[4]) { const float d = -p[3] / (p[0]*p[0] + p[1]*p[1] + p[2]*p[2]); r_co[0] = p[0]*d; r_co[1] = p[1]*d; r_co[2] = p[2]*d; } You could get slightly shorter code if you were to intersect one of the coordinate axes with your plane. ...

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You can use solvePnP of OpenCV, it gives you rotation and translation matrix. In this answer you can see in more detail: Camera position in world coordinate from cv::solvePnP

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Modern C++ still doesn't provide libraries for drawing on screens or using GUIs. You will have to research and find a GUI framework or Graphics Library that can help you with your objective.

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Edit Here is an edited version of my initial answer. The output of plot is a two-element graphical object, so you have to call separately h(1) and h(2) to set the properties of the plane and of the data points. Here is the code for the function: function [fitresult, gof, h] = create_fit(xx, yy, zz, color) [xData, yData, zData] = prepareSurfaceData( xx, ...

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