I am writing a program using OpenGL and I am trying to write a function that allows the user to click on a triangle and increase/decrease the size of the triangle by hitting keys on the keyboard. I understand how to handle key presses, but I am having a little trouble with the math.

If I have a triangle's three vertices and center point stored, how can I upscale the triangle? In other words, how can I manipulate the current vertices to make the triangle larger without altering the center point?

This was my first attempt at up-scaling, where v1, v2, and v3 are the vertices of the triangle and A, B, and C are the vertices of the triangle after being scaled up:

//distance from center to v1
double distance = center - v1;
distance = distance * 1.25;
Vector3d A = center + distance;

v1(0) = A(0);
v1(1) = A(1);


// v2
distance = center - center;
distance = distance * 1.25;
Vector3d B = center + distance;

v2(0) = B(0);
v2(1) = B(1);


// v3
distance = center - v3;
distance = distance * 1.25;
Vector3d C = center + distance;

v3(0) = C(0);
v3(1) = C(1);

edit: I am using the Eigen library, so v1(0) means the x-coordinate of vertex v1 and v1(1) means the y-coordinate of vertex v1

  • distance = center - center; is not the correct formula for v2 – 1201ProgramAlarm Oct 11 at 19:31
  • wow I cant believe i missed that.... – Ben Reilly Oct 11 at 19:39
  • I just fixed it though, and the triangle kind of rotates not increases in size – Ben Reilly Oct 11 at 19:41
  • No one has formally answered yet so update the question with the revised code. Otherwise you'll just get more comments and answers targeting the trivial, and fixed, mistake. – user4581301 Oct 11 at 19:45
  • Next trivial mistake: Work thru your math using a scaling factor of 1.0 instead of 1.25. You should get the same values out that go in... – 1201ProgramAlarm Oct 11 at 19:48
up vote 2 down vote accepted

The line

double distance = center - v1;

is certainly wrong. Both center and v1 are points. That means that they have two or three components (depending on whether you work in 2D or 3D) and therefore distance cannot be a double (i.e., a scalar) but has to be a vector.

This is how I would compute A (computation of B and C will be analogous):

vector3d A;
for(std::size_t i = 0; i < 3; ++i)
  A(i) = center(i) + 1.25 * (V1(i) - center(i));

The part V1(i) - center(i) represents the i-th coordinate of the vector (V1 - center). The right hand-side also represents "walking in the same direction from center but 1.25-times as far."

A few further notes

  • From your sample it is not clear, whether you work in 2D or 3D. On the one hand, you use vector3d, on the other hand you seem to manipulate with the x- and y-coordinates only.
  • I don't understand, why you used v1(0) = A(0); From how I understand your question, A is already the answer.
  • Instead of copy-pasting the essentially identical code three times (once for A, once for B and once for C) it might be useful to turn it into a function that you can call three times.

Good luck with your task!

  • Note: A(i) = center + 1.25 * (V1(i) - center)); is like A(i) = (1.0 - 1.25)*center(i) + 1.25 * V1(i); for an alternate form. – chux Oct 11 at 20:38

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.