Low-level graphics library.
Use this class to manipulate active transformation matrices,
issue rendering commands similar to OpenGL's immediate mode and do other low-level
graphics tasks. Note that in almost all cases using Graphics.DrawMesh or CommandBuffer
is more efficient than using immediate mode drawing.
GL immediate drawing functions use whatever is the "current material" set up right now (see Material.SetPass).
The material controls how the rendering is done (blending, textures, etc.), so unless you explicitly
set it to something before using GL draw functions, the material can happen to be anything.
Also, if you call any other drawing commands from inside GL drawing code, they can set
material to something else, so make sure it's under control as well.
GL drawing commands execute immediately. That means if you call them in Update(), they will be executed
before the camera is rendered (and the camera will most likely clear the screen, making the GL drawing
not visible).
The usual place to call GL drawing is most often in OnPostRender() from a script attached to a
camera, or inside an image effect function (OnRenderImage).
#pragma strict public var lineCount: int = 100; public var radius: float = 3.0f; static var lineMaterial: Material; static function CreateLineMaterial() { if (!lineMaterial) { // simple colored things. var shader: Shader = Shader.Find("Hidden/Internal-Colored"); lineMaterial = new Material(shader); lineMaterial.hideFlags = HideFlags.HideAndDontSave; // Turn on alpha blending lineMaterial.SetInt("_SrcBlend", intUnityEngine.Rendering.BlendMode.SrcAlpha); lineMaterial.SetInt("_DstBlend", intUnityEngine.Rendering.BlendMode.OneMinusSrcAlpha); // Turn backface culling off lineMaterial.SetInt("_Cull", intUnityEngine.Rendering.CullMode.Off); // Turn off depth writes lineMaterial.SetInt("_ZWrite", 0); } } // Will be called after all regular rendering is done public function OnRenderObject() { CreateLineMaterial(); // Apply the line material lineMaterial.SetPass(0); GL.PushMatrix(); // match our transform GL.MultMatrix(transform.localToWorldMatrix); // Draw lines GL.Begin(GL.LINES); for (var i: int = 0; i < lineCount; ++i) { var a: float = i / floatlineCount; var angle: float = a * Mathf.PI * 2; // Vertex colors change from red to green GL.Color(new Color(a, 1 - a, 0, 0.8F)); // One vertex at transform position GL.Vertex3(0, 0, 0); // Another vertex at edge of circle GL.Vertex3(Mathf.Cos(angle) * radius, Mathf.Sin(angle) * radius, 0); } GL.End(); GL.PopMatrix(); }
using UnityEngine;
public class ExampleClass : MonoBehaviour { // When added to an object, draws colored rays from the // transform position. public int lineCount = 100; public float radius = 3.0f;
static Material lineMaterial; static void CreateLineMaterial () { if (!lineMaterial) { // Unity has a built-in shader that is useful for drawing // simple colored things. Shader shader = Shader.Find ("Hidden/Internal-Colored"); lineMaterial = new Material (shader); lineMaterial.hideFlags = HideFlags.HideAndDontSave; // Turn on alpha blending lineMaterial.SetInt ("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.SrcAlpha); lineMaterial.SetInt ("_DstBlend", (int)UnityEngine.Rendering.BlendMode.OneMinusSrcAlpha); // Turn backface culling off lineMaterial.SetInt ("_Cull", (int)UnityEngine.Rendering.CullMode.Off); // Turn off depth writes lineMaterial.SetInt ("_ZWrite", 0); } }
// Will be called after all regular rendering is done public void OnRenderObject () { CreateLineMaterial (); // Apply the line material lineMaterial.SetPass (0);
GL.PushMatrix (); // Set transformation matrix for drawing to // match our transform GL.MultMatrix (transform.localToWorldMatrix);
// Draw lines GL.Begin (GL.LINES); for (int i = 0; i < lineCount; ++i) { float a = i / (float)lineCount; float angle = a * Mathf.PI * 2; // Vertex colors change from red to green GL.Color (new Color (a, 1-a, 0, 0.8F)); // One vertex at transform position GL.Vertex3 (0, 0, 0); // Another vertex at edge of circle GL.Vertex3 (Mathf.Cos (angle) * radius, Mathf.Sin (angle) * radius, 0); } GL.End (); GL.PopMatrix (); } }
Note: This class is almost always used when you need to draw a couple of lines or triangles, and don't want to deal with meshes. If you want to avoid surprises the usage pattern is this:
#pragma strict function OnPostRender() { // Set your materials GL.PushMatrix(); // Draw your stuff GL.PopMatrix(); }
using UnityEngine; using System.Collections;
public class ExampleClass : MonoBehaviour { void OnPostRender() { // Set your materials GL.PushMatrix(); // yourMaterial.SetPass( ); // Draw your stuff GL.PopMatrix(); } }
Where at the "// Draw your stuff" you should do SetPass() on some material previously declared, which will be used for drawing. If you dont call SetPass, then you'll get basically a random material (whatever was used before) which is not good. So do it.
invertCulling | Select whether to invert the backface culling (true) or not (false). |
LINES | Mode for Begin: draw lines. |
modelview | The current modelview matrix. |
QUADS | Mode for Begin: draw quads. |
sRGBWrite | Controls whether Linear-to-sRGB color conversion is performed while rendering. |
TRIANGLE_STRIP | Mode for Begin: draw triangle strip. |
TRIANGLES | Mode for Begin: draw triangles. |
wireframe | Should rendering be done in wireframe? |
Begin | Begin drawing 3D primitives. |
Clear | Clear the current render buffer. |
ClearWithSkybox | Clear the current render buffer with camera's skybox. |
Color | Sets current vertex color. |
End | End drawing 3D primitives. |
Flush | Sends queued-up commands in the driver's command buffer to the GPU. |
GetGPUProjectionMatrix | Compute GPU projection matrix from camera's projection matrix. |
InvalidateState | Invalidate the internally cached render state. |
IssuePluginEvent | Send a user-defined event to a native code plugin. |
LoadIdentity | Load the identity matrix to the current modelview matrix. |
LoadOrtho | Helper function to set up an ortho perspective transform. |
LoadPixelMatrix | Setup a matrix for pixel-correct rendering. |
LoadProjectionMatrix | Load an arbitrary matrix to the current projection matrix. |
MultiTexCoord | Sets current texture coordinate (v.x,v.y,v.z) to the actual texture unit. |
MultiTexCoord2 | Sets current texture coordinate (x,y) for the actual texture unit. |
MultiTexCoord3 | Sets current texture coordinate (x,y,z) to the actual texture unit. |
MultMatrix | Multiplies the current modelview matrix with the one specified. |
PopMatrix | Restores both projection and modelview matrices off the top of the matrix stack. |
PushMatrix | Saves both projection and modelview matrices to the matrix stack. |
RenderTargetBarrier | Resolves the render target for subsequent operations sampling from it. |
TexCoord | Sets current texture coordinate (v.x,v.y,v.z) for all texture units. |
TexCoord2 | Sets current texture coordinate (x,y) for all texture units. |
TexCoord3 | Sets current texture coordinate (x,y,z) for all texture units. |
Vertex | Submit a vertex. |
Vertex3 | Submit a vertex. |
Viewport | Set the rendering viewport. |