Set a custom projection matrix.
// Make camera wobble in a funky way! var originalProjection : Matrix4x4; originalProjection = camera.projectionMatrix; function Update () { var p : Matrix4x4 = originalProjection; // change some values from the original matrix p.m01 += Mathf.Sin (Time.time * 1.2) * 0.1; p.m10 += Mathf.Sin (Time.time * 1.5) * 0.1; camera.projectionMatrix = p; }
using UnityEngine; using System.Collections; public class Example : MonoBehaviour { public Matrix4x4 originalProjection; void Update() { Matrix4x4 p = originalProjection; p.m01 += Mathf.Sin(Time.time * 1.2F) * 0.1F; p.m10 += Mathf.Sin(Time.time * 1.5F) * 0.1F; camera.projectionMatrix = p; } void Example() { originalProjection = camera.projectionMatrix; } }
import UnityEngine import System.Collections public class Example(MonoBehaviour): public originalProjection as Matrix4x4 def Update() as void: p as Matrix4x4 = originalProjection p.m01 += (Mathf.Sin((Time.time * 1.2F)) * 0.1F) p.m10 += (Mathf.Sin((Time.time * 1.5F)) * 0.1F) camera.projectionMatrix = p def Example() as void: originalProjection = camera.projectionMatrix
// Set an off-center projection, where perspective's vanishing
// point is not necessarily in the center of the screen.
//
// leftright
top/bottom define near plane size, i.e.
// how offset are corners of camera's near plane.
// Tweak the values and you can see camera's frustum change. @script ExecuteInEditMode var left : float = -0.2;
var right : float = 0.2;
var top : float = 0.2;
var bottom : float = -0.2; function LateUpdate () {
var cam : Camera = camera;
var m : Matrix4x4 = PerspectiveOffCenter(
left, right, bottom, top,
cam.nearClipPlane, cam.farClipPlane );
cam.projectionMatrix = m;
} static function PerspectiveOffCenter(
left : float, right : float,
bottom : float, top : float,
near : float, far : float ) : Matrix4x4
{
var x : float = (2.0 * near) / (right - left);
var y : float = (2.0 * near) / (top - bottom);
var a : float = (right + left) / (right - left);
var b : float = (top + bottom) / (top - bottom);
var c : float = -(far + near) / (far - near);
var d : float = -(2.0 * far * near) / (far - near);
var e : float = -1.0; var m : Matrix4x4 = new Matrix4x4();
m[0,0] = x; m[0,1] = 0; m[0,2] = a; m[0,3] = 0;
m[1,0] = 0; m[1,1] = y; m[1,2] = b; m[1,3] = 0;
m[2,0] = 0; m[2,1] = 0; m[2,2] = c; m[2,3] = d;
m[3,0] = 0; m[3,1] = 0; m[3,2] = e; m[3,3] = 0;
return m;
}
using UnityEngine; using System.Collections; [ExecuteInEditMode] public class Example : MonoBehaviour { public float left = -0.2F; public float right = 0.2F; public float top = 0.2F; public float bottom = -0.2F; void LateUpdate() { Camera cam = camera; Matrix4x4 m = PerspectiveOffCenter(left, right, bottom, top, cam.nearClipPlane, cam.farClipPlane); cam.projectionMatrix = m; } static Matrix4x4 PerspectiveOffCenter(float left, float right, float bottom, float top, float near, float far) { float x = 2.0F * near / (right - left); float y = 2.0F * near / (top - bottom); float a = (right + left) / (right - left); float b = (top + bottom) / (top - bottom); float c = -(far + near) / (far - near); float d = -(2.0F * far * near) / (far - near); float e = -1.0F; Matrix4x4 m = new Matrix4x4(); m[0, 0] = x; m[0, 1] = 0; m[0, 2] = a; m[0, 3] = 0; m[1, 0] = 0; m[1, 1] = y; m[1, 2] = b; m[1, 3] = 0; m[2, 0] = 0; m[2, 1] = 0; m[2, 2] = c; m[2, 3] = d; m[3, 0] = 0; m[3, 1] = 0; m[3, 2] = e; m[3, 3] = 0; return m; } }
import UnityEngine import System.Collections [ExecuteInEditMode] public class Example(MonoBehaviour): public left as float = (-0.2F) public right as float = 0.2F public top as float = 0.2F public bottom as float = (-0.2F) def LateUpdate() as void: cam as Camera = camera m as Matrix4x4 = PerspectiveOffCenter(left, right, bottom, top, cam.nearClipPlane, cam.farClipPlane) cam.projectionMatrix = m static def PerspectiveOffCenter(left as float, right as float, bottom as float, top as float, near as float, far as float) as Matrix4x4: x as float = ((2.0F * near) / (right - left)) y as float = ((2.0F * near) / (top - bottom)) a as float = ((right + left) / (right - left)) b as float = ((top + bottom) / (top - bottom)) c as float = ((-(far + near)) / (far - near)) d as float = ((-((2.0F * far) * near)) / (far - near)) e as float = (-1.0F) m as Matrix4x4 = Matrix4x4() m[0, 0] = x m[0, 1] = 0 m[0, 2] = a m[0, 3] = 0 m[1, 0] = 0 m[1, 1] = y m[1, 2] = b m[1, 3] = 0 m[2, 0] = 0 m[2, 1] = 0 m[2, 2] = c m[2, 3] = d m[3, 0] = 0 m[3, 1] = 0 m[3, 2] = e m[3, 3] = 0 return m