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Say I am using an Identity Matrix for my modelViewTransformation Matrix on an OpenGL ES 2.0 program. The Co-ordinate system in this case is the canonical OpenGL co-ordinate system which extends from (-1,-1,-1) to (1,1,1).

Is this coordinate system right-handed or left-handed?

A broader question: Is there a document with OpenGL which can list all the mathematical conventions followed by the API?

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4 Answers

up vote 5 down vote accepted

My question is, is this coordinate system right-handed or left-handed?

By default, OpenGL is always right-handed. You can observe this by the automatic normal creation. You can force a left-handed normal creation by specifying it per point but, in general, right hand rule applies all the time. See 9.150 in the OpenGL FAQ for more discussion of the right-hand-only nature of OpenGL.

... all the mathematical conventions followed by the API?

It's not clear what you're asking for. The math is basic linear algebra with a strong focus on matrix math and linear transformations.

EDIT to respond to comment question:

REMEMBER, however, that if you are using the uniform matrix calls rather than the older glRotates, etc, that you must specify whether you are using row-major or column-major matrices. In this case (from the code mentioned in the comment):

glUniformMatrix4fv(uniforms[UNIFORM_MVP], 16, GL_FALSE, mvpMatrixZRotation);

In this call, GL_FALSE is telling the call that this is a column-major matrix and, as such, the rotation that results will be the transpose of what was intended. Therefore, the rotation will be inverted, looking like a left-handed coordinate system.

Change that to GL_TRUE and all will be well.

Here is a very simple example from the OpenGL discussion board that's relevant to this specific topic.

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Lets say OpenGL is right-handed. Say I draw the x,y axis on the screen with the transformation matrix being Identity and then rotate them about z-axis by an angle theta = 30 Degrees. So if the system is right handed the rotation should occur counter-clockwise. However, the rotation happens to be clockwise indicating a left-handed system. So this is confusing me. –  praveen Mar 3 '11 at 7:44
    
@praveen, I think you're misunderstanding the order of operations. If you post actual code, the reason will become more clear. Check 9.070 in the OpenGL FAQ: opengl.org/resources/faq/technical/transformations.htm –  Bob Cross Mar 3 '11 at 13:21
    
@BobCross Hi Bob. I am trying to learn OpenGL ES on iOS. I believe the canonical view volume has a left-handed coordinate system. The code from my program can be found here : link. [To try this code just replace the render function in the iOS OpenGL template project, generated by XCode, with this one] Given the angle is positive and the system is right-handed, the rotation should happen in anti-clockwise direction. Contrary to this, the rotation occurs in clockwise direction. –  praveen Mar 3 '11 at 13:55
    
@praveen, your code has a FALSE where it should have a TRUE: you're passing in column-major rather than row-major. See the updated answer for details. –  Bob Cross Mar 3 '11 at 15:40
    
@bobcross hi Bob, the transpose parameter is supposed to be GL_False if the matrix is column major which is the case in my code. So I don't think that parameter is the problem. –  praveen Mar 3 '11 at 19:51
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Opengl ES coordinate system is indeed Right Handed System including the Canonical Volume of (-1, -1, -1) to (1,1,1). I have verified this through code.

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The canonical view volume aka normalized device coordinates is/are left-handed. This is easy to test by passing the identity matrix and drawing 2 triangles say

float points[] = { -1, 1, 0.9,
                   -1, -1, 0.9,
                    1, -1, -0.9,

                    1, 1, 0.9,
                    -1, -1, -0.9,
                    1, -1, 0.9 };

and looking at the results (with glEnable(GL_DEPTH_TEST))

So your vertex shader will look like this:

uniform mat4 mvp_mat;

// Incoming per vertex... position (fills in 1 for w if from vec3 buf)
layout (location = 0) in vec4 v_vertex;


void main(void) 
{ 
    // Don't forget to transform the geometry!
    gl_Position = mvp_mat * v_vertex;
}

or you could even test it more simply like this since the identity matrix does nothing

layout (location = 0) in vec4 v_vertex;

void main(void) 
{
    gl_Position = v_vertex;
}

Obviously you'll have to make the colors of the triangles different so you can see how they overlap.

Also see this post and my comment/question in it: plus.google.com/114825651948330685771/posts/AmnfvYssvSe

I don't know where all the incorrect information comes from all over the internet and even in textbooks. OpenGL is only right handed by default if you're talking about triangle winding for determining the front face (CCW by default = right handed). World space, object space and eye space don't exist to OpenGL, only to the graphics programmer. OpenGL just takes points, clips anything outside of the canonical view volume [-1, -1, -1] x [1, 1, 1] and transforms them to screenspace/window coordinates which by default is [0, w) x [0, h) x [0, 1]. If the depth test is enabled the default behavior is left-handed, looking down +z.

There are several ways to account for OpenGL's left-handedness. Most people handle it in their matrices (though they don't realize it). I think you can also change it using glDepthFunc and setting it to GL_GREATER.

http://www.opengl.org/sdk/docs/man3/xhtml/glDepthFunc.xml

Further proof that it is left handed is here http://www.opengl.org/sdk/docs/man3/xhtml/glDepthRange.xml

"After clipping and division by w, depth coordinates range from -1 to 1, corresponding to the near and far clipping planes" ie positive z goes into the screen = left-handed. You can also use DepthRange to change to right-handed behavior.

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Wow!!! This is a very good explanation. So my stuff is still wrong though some matrix math may have compensated for the wrong assumption. –  praveen Mar 27 at 10:07
    
Thanks. Well you know us programmers, if it looks like it's running right, it doesn't matter how. ha. But really I added the link to the Google+ thread to show another aspect of confusion. The whole row-major vs column-major debacle which further obscures the issue. –  rswinkle Mar 29 at 3:09
    
Dang sorry, this is the first time really using StackOverflow. I meant there to be more to the above comment but hit enter and apparently I can't edit it after 5 minutes. Anyway I'll let it rest but this whole OpenGL handedness and matrix row vs col-major rats nest is a pet peeve of mine. –  rswinkle Mar 29 at 3:20
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ALWAYS REMEMBER!! OPENGL ONLY KNOWS NDC ,AND IT IS LEFT_HANDED!

OpenGL doesn`t care what handed coordinate system you use for intermediate matrix processes. you can use axis coordinate system if you want,as long as you mirror that to NDC.

forget about Camera!

because our screen is a 2D plane.Imagine this,your viewport is a yellow rubber plane.pine those four corner to NDC. something like this: enter image description here

all vertex in NDC hit on on the yellow rubber plane along the -z axis.That`s what you see on real screen.

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