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I have loaded an wavefront object in Iphone OpenGL.

enter image description here

It can be rotated around x/y axis, panned around, zoomed in/out.

My task is - when object is tapped, highlight it's 2d center coordinates on screen for example like this: (Imagine that + is in the center of visible object.) enter image description here

When loading OpenGL object I store it's:

  1. object center position in world,
  2. x,y,z position offset,
  3. x,y,z rotation,
  4. zoom scale.

When user taps on the screen, I can distinguish which object was tapped. But - as user can tap anywhere on object - Tapped point is not center.

When user touches an object, I want to be able to find out corresponding object visible approximate center coordinates.

How can I do that?

Most code in google I could find is meant - to translate 3d coordinates to 2d but without rotation.

Some variables in code:

Vertex3D centerPosition;  
Vertex3D currentPosition;
Rotation3D currentRotation;

//centerPosition.x,  centerPosition.y, centerPosition.z
//currentPosition.x,  currentPosition.y, currentPosition.z
//currentRotation.x,  currentRotation.y, currentRotation.z

Thank You in advance.

(To find out which object I tapped - re-color each object in different color, thus I know what color user tapped.)

object drawSelf function:

// Save the current transformation by pushing it on the stack
glPushMatrix();

// Load the identity matrix to restore to origin
glLoadIdentity();

// Translate to the current position
glTranslatef(currentPosition.x, currentPosition.y, currentPosition.z);

// Rotate to the current rotation
glRotatef(currentRotation.x, 1.0, 0.0, 0.0);
glRotatef(currentRotation.y, 0.0, 1.0, 0.0);
glRotatef(currentRotation.z, 0.0, 0.0, 1.0);


// Enable and load the vertex array
glEnableClientState(GL_VERTEX_ARRAY);
glEnableClientState(GL_NORMAL_ARRAY);
glVertexPointer(3, GL_FLOAT, 0, vertices);
glNormalPointer(GL_FLOAT, 0, vertexNormals);
// Loop through each group

if (textureCoords != NULL)
{
    glEnableClientState(GL_TEXTURE_COORD_ARRAY);
    glTexCoordPointer(valuesPerCoord, GL_FLOAT, 0, textureCoords);
}
for (OpenGLWaveFrontGroup *group in groups)
{
    if (textureCoords != NULL && group.material.texture != nil)
        [group.material.texture bind];
    // Set color and materials based on group's material
    Color3D ambient = group.material.ambient;
    glMaterialfv(GL_FRONT_AND_BACK, GL_AMBIENT, (const GLfloat *)&ambient);

    Color3D diffuse = group.material.diffuse;
    glColor4f(diffuse.red, diffuse.green, diffuse.blue, diffuse.alpha);
    glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE,  (const GLfloat *)&diffuse);

    Color3D specular = group.material.specular;
    glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, (const GLfloat *)&specular);

    glMaterialf(GL_FRONT_AND_BACK, GL_SHININESS, group.material.shininess);

    glDrawElements(GL_TRIANGLES, 3*group.numberOfFaces, GL_UNSIGNED_SHORT, &(group.faces[0]));
}
if (textureCoords != NULL)
    glDisableClientState(GL_TEXTURE_COORD_ARRAY);

glDisableClientState(GL_VERTEX_ARRAY);
glDisableClientState(GL_NORMAL_ARRAY);
// Restore the current transformation by popping it off
glPopMatrix();
share|improve this question
    
you'll have to do the steps that the OpenGL pipeline performs for each vertex yourself for the object center. this includes transforming the object center to clip coordinates ( multiply with 4x4 projection, view & model matrices - you have those for sure somewhere in your code, because you need them in your vertex shader anyway ), then the perspective division and lastly applying the viewport transformation. – gemse May 15 '13 at 12:13
    
Ok, so step by step - I start at zero position with no rotations/movements. Now what? I calculate 2d coordinates or apply one OpenGL pipeline step (i.e. rotation) ? – Guntis Treulands May 15 '13 at 12:26
    
ok, I should have asked this before I posted the above comment: are you working directly with OpenGL ES, or are you using some wrapper framework / library? because I assumed that you work with OpenGL directly - this would include building the transformation matrices yourself, compiling shaders, generating vertex buffers for the object etc.; basically, you need to show a bit more code: how do you actually apply transformations to your cube & how do you draw it? – gemse May 15 '13 at 17:32
    
Sorry, Yes I am working directly with OpenGL ES. I started with this project: iphonedevelopment.blogspot.com/2008/12/… (downloaded proj. from here) github.com/jlamarche/iOS-OpenGLES-Stuff/tree/master/… And I kept improving code with more functionality. Problem is that I am kinda bad at math and started openGL only a month ago by just tinkering this project. That's why some "simple" things are hard to understand. I updated question with drawself function. All of what you mentioned already existed in that code. – Guntis Treulands May 15 '13 at 19:29
    
What I did was - added functionality to rotate it, zoom it, import separated objects from single .obj file - and possibility to select each object, Added keyframe animations to objects. Mentioned task is - to select an object and show info about it. But - I need to draw a line to that object center (to place where object is visible). That's the thing I don't know - using it's center wavefront coordinates, rotation, position - calculate visual 2d coordinates. So - if You could simply write it as an answer with more description - you would help a lot to better understand what to do. – Guntis Treulands May 15 '13 at 19:33
up vote 1 down vote accepted

ok, as I said, you'll need to apply the same transformations to the object center that are applied to the object's vertices by the graphics pipeline; only this time, the graphics pipeline won't help you - you'll have to do it yourself. And it involves some matrix calculations, so I'd suggest getting a good maths library like the OpenGL Maths library, which has the advatage that function names etc. are extremly similar to OpenGL.

step 1: transform the center form object coordinates to modelview coordinates

in your code, you set up your 4x4 modelview matrix like this:

// Load the identity matrix to restore to origin
glLoadIdentity();

// Translate to the current position
glTranslatef(currentPosition.x, currentPosition.y, currentPosition.z);

// Rotate to the current rotation
glRotatef(currentRotation.x, 1.0, 0.0, 0.0);
glRotatef(currentRotation.y, 0.0, 1.0, 0.0);
glRotatef(currentRotation.z, 0.0, 0.0, 1.0);

you need to multiply that matrix with the object center, and OpenGL does not help you with that, since it's not a maths library itself. If you use glm, there are functions like rotate(), translate() etc that function similiar to glRotatef() & glTranslatef(), and you can use them to build your modelview matrix. Also, since the matrix is 4x4, you'll have to append 1.f as 4th component to the object center ( called 'w-component' ), otherwise you can't multiply it with a 4x4 matrix.

Alternatively, you could query the current value of th modelview matrix directly from OpenGl:

GLfloat matrix[16]; 
glGetFloatv (GL_MODELVIEW_MATRIX, matrix);

but then you'll have to write your own code for the multiplication...

step 2: go from modelview coordinates to clip coordinates

from what you posted, I can't tell whether you ever change the projection matrix ( is there a glMatrixMode( GL_PROJECTION ) somewhere? ) - if you never touch the projection matrix, you can omit this step; otherwise you'll now need to multiply the transformed object center with the projection matrix as well.

step 3: perspective division

divide all 4 components of the object center by the 4th - then throw away the 4th component, keeping only xyz. If you omitted step 2, you can also omit the division.

step 4: map the object center coordinates to window coordinates

the object center is now defined in normalized device coordinates, with x&y components in range [-1.f, 1.f]. the last step is mapping them to your viewport, i.e. to pixel positions. the z-component does not really matter to you anyway, so let's ignore z and call the x & y component obj_x and obj_y, respectively.

the viewport dimensions should be set somewhere in your code with glViewport( viewport_x, viewport_y, width, height ). from the function arguments, you can then calculate the pixel position for the center like this:

pixel_x = width/2 * obj_x + viewport_x + width/2;
pixel_y = height/2 * obj_y + viewport_y + height/2; 

and that's basically it.

share|improve this answer
    
also, something I forgot to mention: doing it like this, you might end up with pixel values that are outside of the viewport - this will only happen if the object is translated / rotated in such a way that it's center lies outside of the view frustum. – gemse May 15 '13 at 22:07
    
If exported wavefront .obj object was placed with offset from center - in iPhone it will appear with an offset, although it's current position will be 0. Also - when rotating, it will rotate around imaginary 0,0,0 (so it will not rotate around visible object center but that real offset center.) (I hope you can understand what I tried to tell) - Question is - will this still return correct visible object center or offset center? Because - Objects that I use are exported with offsets from center point. – Guntis Treulands May 16 '13 at 8:58
    
no, you have to know the offset, otherwise this won't work. model files with a hardcoded offset are a bit weird - they make proper positioning in the scene hard. Maybe you could estimate the center by calculating a bounding box and using the box center instead? this is of course not ideal for arbitrary objects. – gemse May 16 '13 at 17:39
    
Ok, that's what I thought. I figured out - I can get that offset by counting together all x values (y values separately, and z values separately) from object - then divide by point count. Thank You for your time explaining it all to me! I have now enough information to continue experimenting! – Guntis Treulands May 16 '13 at 19:09

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