# Is OpenGL coordinate system left-handed or right-handed?

I am trying to understand the OpenGL coordinate system. However, some tutorials say the default coordinate system is left handed (see http://www.c-sharpcorner.com/UploadFile/jeradus/OpenGLBasics11172005014307AM/OpenGLBasics.aspx) and others say it is right handed (see http://www.falloutsoftware.com/tutorials/gl/gl0.htm). Which is correct? I understand that we can transform one to the other by mirroring but I would like to know the default coordinates.

• – Kos Dec 11 '12 at 9:57
• Doesn't this depend entirely on how you write your transforms in the shaders and is therefore entirely up to you? – jcoder May 13 '13 at 16:19
• Just my two cents evl.uic.edu/ralph/508S98/coordinates.html, it has a few self explanatory images. – rraallvv Dec 7 '13 at 4:19

## 6 Answers

The coordinate system is right handed. The first article seems to be wrong.

• are you sure?, according to my test without any transformation matrix an object with lower z covers objects with higher and with x heading right and y up it would make it a left-handed system. – hultqvist Apr 22 '12 at 0:40
• Incorrect, OGL is right handed in eye space but left-handed in normalized device coordinates. See here – bobobobo Sep 9 '12 at 3:57
• The normalized device coordinates are left-handed. It is possible to use left or right-handed coordinates for the eye space, but in general right-handed is used. – neodelphi Dec 24 '12 at 16:56

There is some confusion here.

OpenGL is right handed in object space and world space.

But in window space (aka screen space) we are suddenly left handed.

How did this happen?

The way we get from right-handed to left-handed is a negative z scaling entry in the `glOrtho` or `glFrustum` projection matrices. Scaling z by -1 (while leaving x and y as they were) has the effect of changing the handedness of the coordinate system.

For glFrustum,

far and near are supposed to be positive, with far > near. Say far=1000 and near=1. Then C= -( 1001 ) / ( 999 ) = -1.002.

See here for more details and diagrams.

From an orthographic perspective, glOrtho generates a matrix like this:

Here, left, right, bottom and top are just the coordinates for left vertical, right vertical, bottom horizontal, top horizontal clipping planes (resp).

The near and far planes, however, are specified differently. The near parameter is defined as

• Near: The distance to the nearer depth clipping plane. This distance is negative if the plane is to be behind the viewer.

and far:

• zFar The distance to the farther depth clipping plane. This distance is negative if the plane is to be behind the viewer.

Here we have a typical canonical view volume

Because the z multiplier is (-2/(far-near)), the minus sign effectively scales z by -1. This means that "z" is turned left handed during the viewing transformation, unbeknownst to most people as they simply work in OpenGL as a "right handed" coordinate system.

So, if you call

``````glOrthof(-1, 1, -1, 1, 10, -10) ; // near=10, FAR=-10,
``````

Then the NEAR PLANE is 10 units ahead of you. Where are you? Why, at the origin, with the x-axis to your right, the y-axis on top of your head, and your nose pointing down the negative z-axis (that's the default "By default, the camera is situated at the origin, points down the negative z-axis, and has an up-vector of (0, 1, 0)."). So the near plane is at z=-10. The far plane is 10 units behind you, at z=+10.

• "the forward vector is negated in gluLookAt" - can you confirm that this is that the case? Not gluPerspective or glFrustum or glOrtho? – Kos Dec 11 '12 at 10:24
• Yes, in the last few lines, `matrix2[2] = -forward[0]; .. ` flips the direction of the forward vector. – bobobobo Dec 12 '12 at 22:42
• We're suddenly left-handed from clip space onwards not just window space. – legends2k Apr 3 '13 at 15:13
• +1 for the whole answer, -1 (wait, rather -2) for "The way we get from right-handed to left-handed is because the forward vector is negated in the standard implementation of gluLookAt(), which is the function everybody uses to create the view matrix. When you negate the forward vector, this has the effect of changing the handedness of the coordinate system.", which is mere rubbish... – Christian Rau May 13 '13 at 16:10
• ...Negating the forward vector in the `gluLookAt` computation has nothing to do with changing the handedness of the coordinate space, that's just how this matrix is computed (and in fact +z is indeed "backward" in right-handed space). `gluLookAt` does nothing else than compute an ordinary rigid body transformation (rotation+translation) in right-handed space. It is the projection matrices used by the fixed function pipeline (and usually by shaders, too) that perform the actual handedness change in their negation of the z-component, as you already noted in your answer. – Christian Rau May 13 '13 at 16:14

By default the Normalized Device Coordinate is left-handed.

The glDepthRange is by default [0, 1] (near, far) making the +z axis point into the screen and with +x to the right and +y up it is a left-handed system.

Changing the depth range to [1, 0] will make the system right-handed.

Quoting a previous answer from Nicol: (the strike-through is my work, explained below)

I'm surprised nobody mentioned something: OpenGL works in a left-handed coordinate system too. At least, it does when you're working with shaders and use the default depth range.

Once you throw out the fixed-function pipeline, you deal directly with "clip-space". The OpenGL Specification defines clip-space as a 4D homogeneous coordinate system. When you follow the transforms through normalized device coordinates, and down to window space, you find this.

Window space is in the space of a window's pixels. The origin is in the lower-left corner, with +Y going up and +X going right. That sounds very much like a right-handed coordinate system. But what about Z?

The default depth range (glDepthRange) sets the near Z value to 0 and the far Z value to one. So the +Z is going away from the viewer.

That's a left-handed coordinate system. Yes, you can change the depth test from GL_LESS to GL_GREATER and change the glDepthRange from [0, 1] to [1, 0]. But the default state of OpenGL is to work in a left-handed coordinate system. And none of the transforms necessary to get to window space from clip-space negate the Z. So clip-space, the output of the vertex (or geometry) shader is a left-handed space (kinda. It's a 4D homogeneous space, so it's hard to pin down the handedness).

In the fixed-function pipeline, the standard projection matrices (produced by glOrtho, glFrustum and the like) all transform from a right-handed space to a left-handed one. They flip the meaning of Z; just check the matrices they generate. In eye space, +Z moves towards the viewer; in post-projection space, it moves away.

I suspect Microsoft (and GLide) simply didn't bother to perform the negation in their projection matrices.

I did strike one part since it diverged from my findings.

Either changing the DepthRange or the DepthFunc and using the ClearDepth(0) works but when using both they cancelled out each other back to a left-handed system.

• The depth range can't be [1, -1]. I think you meant [1, 0]. Also, this has been pointed out before. – Nicol Bolas Apr 22 '12 at 2:06
• Your answer is great, too bad it is to a DirectX question, you should repost it here! – hultqvist Apr 22 '12 at 7:10
• @SigTerm why do you think correcting a false statement is not worth it? I have spent several hours troubleshooting vertex coordinates and matrix rotation generation just to find out that the default coordinate system in fact was not right-handed. – hultqvist Apr 22 '12 at 16:31
• The question was whether it was a left- or right-handed system. This answer has more details than that, explaining two other ways to get it right-handed, adding a -1 in a matrix transformation is yet another way of doing it. But none of that matters if you believe the system is right-handed by default, you can only change something if you know what you are changing from. Still – hultqvist Apr 23 '12 at 7:19
• I found the answer very enlightening, and it came up in searches so it was worth it for me. – Learn OpenGL ES Jul 25 '12 at 23:00

# ONLY NDC

You should only notice that `OpenGL only knows NDC!!`,and it`s a left-hand coordinate. no matter what coordinate you use, left-hand,right-hand axis-coordinate etc.All need to be mirrored to NDC. If you like,you can totally write world-space in left-coordinate.

# Why we use right right-hand coordinate in world-space?

I think it`s conventional.It just does.Maybe it just want to distinguish from DirectX.

• I think this doesn't get repeated enough. All these diagrams showing "modeling transform", "view transform", "perspective transform" fail to show they're not an intrinsic part of OpenGL. You could even do all your transforms manually, with or without shaders, with or without matrices. – Tom Aug 31 '17 at 17:21
• It might be nicer if repeating it to include the words "normalised device coordinates" though. – Tommy Oct 2 '17 at 20:26
• OpenGL predates DirectX by a few years, so OpenGL were certainly not trying to distinguish themselves from DirectX. The lead developer of DirectX, Alex St. John, has said that Microsoft's decision to go for a left-handed co-ordinate system was "in part out of personal preference" and "an arbitrary choice." – Chris Nolet Nov 10 '17 at 19:34

The book "WebGl Programming Guide" by Kouichi Matsuda spends almost ten pages on "WebGl/OpenGl: Left or Right Handed?"

According to the book:

• In practice, most people use a right-handed system

• OpenGl actually is a left-handed system internally

• Internally, more deeply it's actually neither. At the very bottom OpenGl doesn't care about the z-value. The order in which you draw things determines what is drawn on top (draw a triangle first, then a quad, the quad overrides the triangle).

I don't fully agree with the "it's neither" but that's probably a philosophical question anyway.

• `The order in which you draw things determines what is drawn on top (draw a triangle first, then a quad, the quad overrides the triangle).` This is true, in the absence of depth testing. In the presence of depth testing, the z value of a fragment is compared with the value in the depth buffer, and the fragment discarded if it fails the depth test, so the quad may or may not overwrite the triangle depending on their depths and the depth function used. – chrisvarnz Feb 14 at 11:43

Opengl is definitely left-handed. You see a lot of tutorials stating the opposite because they are negating the z-value in projection matrix. When the final vertices are computed inside vertex shader, it's converting the vertices that you pass from client-side (right-hand coord) to left-handed, and the vertices will then be passed to geometry shader and fragment shader. If you use right-hand coordinate system in client-side, Opengl doesn't care. It only knows normalized coordinate system, which is left handed.

Edit: If you don't trust me, just experiment in your vertex shader by adding a translation matrix, and you can easily see if Opengl is left-handed or not.