How do you render primitives as wireframes in OpenGL?

glPolygonMode( GL_FRONT_AND_BACK, GL_LINE );

to switch on,

glPolygonMode( GL_FRONT_AND_BACK, GL_FILL );

to go back to normal.

Note that things like texture-mapping and lighting will still be applied to the wireframe lines if they're enabled, which can look weird.

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    I like you. 4 more to go. – Jo So Aug 3 '15 at 16:12

From http://cone3d.gamedev.net/cgi-bin/index.pl?page=tutorials/ogladv/tut5

// Turn on wireframe mode
glPolygonMode(GL_FRONT, GL_LINE);
glPolygonMode(GL_BACK, GL_LINE);

// Draw the box

// Turn off wireframe mode
glPolygonMode(GL_FRONT, GL_FILL);
glPolygonMode(GL_BACK, GL_FILL);
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    making two calls is redundant. use GL_FRONT_AND_BACK – shoosh Sep 30 '08 at 9:01
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    As an addendum to @shoosh's comment, the Red Book states that GL_FRONT and GL_BACK have been deprecated and removed from OpenGL 3.1 and up. Now, you can still use them through the compatibility extension, but if you have a choice between forward-compatible and backward-compatible, I would recommend going for the former. – fouric Mar 26 '13 at 4:28
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    The link in this answer returns 404. – Ondrej Slinták Jul 22 at 13:56

Assuming a forward-compatible context in OpenGL 3 and up, you can either use glPolygonMode as mentioned before, but note that lines with thickness more than 1px are now deprecated. So while you can draw triangles as wire-frame, they need to be very thin. In OpenGL ES, you can use GL_LINES with the same limitation.

In OpenGL it is possible to use geometry shaders to take incoming triangles, disassemble them and send them for rasterization as quads (pairs of triangles really) emulating thick lines. Pretty simple, really, except that geometry shaders are notorious for poor performance scaling.

What you can do instead, and what will also work in OpenGL ES is to employ fragment shader. Think of applying a texture of wire-frame triangle to the triangle. Except that no texture is needed, it can be generated procedurally. But enough talk, let's code. Fragment shader:

in vec3 v_barycentric; // barycentric coordinate inside the triangle
uniform float f_thickness; // thickness of the rendered lines

void main()
    float f_closest_edge = min(v_barycentric.x,
        min(v_barycentric.y, v_barycentric.z)); // see to which edge this pixel is the closest
    float f_width = fwidth(f_closest_edge); // calculate derivative (divide f_thickness by this to have the line width constant in screen-space)
    float f_alpha = smoothstep(f_thickness, f_thickness + f_width, f_closest_edge); // calculate alpha
    gl_FragColor = vec4(vec3(.0), f_alpha);

And vertex shader:

in vec4 v_pos; // position of the vertices
in vec3 v_bc; // barycentric coordinate inside the triangle

out vec3 v_barycentric; // barycentric coordinate inside the triangle

uniform mat4 t_mvp; // modeview-projection matrix

void main()
    gl_Position = t_mvp * v_pos;
    v_barycentric = v_bc; // just pass it on

Here, the barycentric coordinates are simply (1, 0, 0), (0, 1, 0) and (0, 0, 1) for the three triangle vertices (the order does not really matter, which makes packing into triangle strips potentially easier).

The obvious disadvantage of this approach is that it will eat some texture coordinates and you need to modify your vertex array. Could be solved with a very simple geometry shader but I'd still suspect it will be slower than just feeding the GPU with more data.

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    Of course it does. You can refer to someone's implementation of the same idea in stackoverflow.com/questions/7361582/…. – the swine Jan 3 '16 at 21:38
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    Well, sure it is. Thats the whole point of this answer. – the swine Jan 4 '16 at 15:05
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    The problem I run into trying to use your suggested implementation is, I think, that the shader will never be drawing outside of the object to be outlined. This will therefore draw the outline over the object being outlined? In other words, the outline will be purely contained within the original object to be drawn? – user1167662 Jan 5 '16 at 5:38
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    @BrunoLevy you can get additional coordinated in webGL, no? If you are lucky, you might be able to get those coordinates from texcoords if you have very simple models but otherwise you just need to add new coordinates. Would be too nice if it worked without it :). All you need is to pass a single scalar per vertex (and then expand it to a 3-vector in the vertex shader). – the swine May 4 '16 at 19:25
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    Ah, now I see ... f_width() is my friend, in this respect. Thanks – Neil Gatenby Jan 25 '18 at 11:24

The easiest way is to draw the primitives as GL_LINE_STRIP.

/* Draw vertices here */
  • not if it is a bunch of GL_TRIANGLES: you would get lines between them. In OpenGL 1.x or legacy you use glPolygonMode. In recent OpenGL you play with the geometry shader. – Fabrice NEYRET Oct 6 '15 at 20:32
  • This is an ancient way of doing things that needs to be left behind. – Benny Mackney Jul 22 at 1:48

If you are using the fixed pipeline (OpenGL < 3.3) or the compatibility profile you can use

//Turn on wireframe mode

//Draw the scene with polygons as lines (wireframe)

//Turn off wireframe mode

In this case you can change the line width by calling glLineWidth

Otherwise you need to change the polygon mode inside your draw method (glDrawElements, glDrawArrays, etc) and you may end up with some rough results because your vertex data is for triangles and you are outputting lines. For best results consider using a Geometry shader or creating new data for the wireframe.


You can use glut libraries like this:

  1. for a sphere:

  2. for a Cylinder:

    GLUquadric *quadratic = gluNewQuadric();
  3. for a Cube:


In Modern OpenGL(OpenGL 3.2 and higher), you could use a Geometry Shader for this :

#version 330

layout (triangles) in;
layout (line_strip /*for lines, use "points" for points*/, max_vertices=3) out;

in vec2 texcoords_pass[]; //Texcoords from Vertex Shader
in vec3 normals_pass[]; //Normals from Vertex Shader

out vec3 normals; //Normals for Fragment Shader
out vec2 texcoords; //Texcoords for Fragment Shader

void main(void)
    int i;
    for (i = 0; i < gl_in.length(); i++)
        texcoords=texcoords_pass[i]; //Pass through
        normals=normals_pass[i]; //Pass through
        gl_Position = gl_in[i].gl_Position; //Pass through

Notices :


If it's OpenGL ES 2.0 you're dealing with, you can choose one of draw mode constants from


GL_POINTS (if you need to draw only vertices), or


as first argument to your

glDrawElements(GLenum mode, GLsizei count, GLenum type, const GLvoid * indices)


glDrawArrays(GLenum mode, GLint first, GLsizei count) calls.

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