I have "ported" an ssao solution from here: theorangeduck.com/page/pure-depth-ssao

I wanted it to use it for Unity Indie with this package from FuzzyQuils, he managed to enable image effects without the Pro-version. (Link: http://forum.unity3d.com/threads/198568-Epic-Radial-Blur-Effect-for-Unity-Indie)

My result looks like this:

and with this depth image:

I was wondering why these lines occur. Does anyone have an advice? Could it be that the depthtexture is wrong?

Here is the SSAOTest.shader

```
Shader "Custom/SSAOTest" {
Properties {
_MainTex ("Base (RGB)", 2D) = "white" {}
_DepthTextureSampler("Depth Texture", 2D) = "black" {}
_RandomTextureSampler("Random Texture", 2D) = "grey" {}
_Strength ("Strength", Range(0, 2.0)) = 1.0
_Base ("Base", Range(0, 1.0)) = 0.2
_Area ("Area", Range(0.00001, 0.2)) = 0.0075
_Falloff ("Falloff", Range(0.0000005, 0.00001)) = 0.000001
_Radius ("Radius", Range(0.0001, 0.0004)) = 0.0002
}
SubShader {
Cull Off// ZWrite Off
pass {
```

// blend One SrcColor CGPROGRAM

```
#include "UnityCG.cginc"
#pragma vertex vert
#pragma fragment ps_ssao
#pragma target 3.0
sampler2D _MainTex;
sampler2D _DepthTextureSampler;
sampler2D _RandomTextureSampler;
float _Strength = 1.0;
float _Base = 0.2;
float _Area = 0.0075;
float _Falloff = 0.000001;
float _Radius = 0.0002;
struct v2f {
float4 pos : POSITION;
float2 uv : TEXCOORD0;
};
v2f vert (appdata_img v)
{
v2f o;
o.pos = mul (UNITY_MATRIX_MVP, v.vertex);
o.uv = v.texcoord.xy;
return o;
}
float3 normal_from_depth(float depth, float2 texcoords) {
const float2 offset1 = float2(0.0,0.001);
const float2 offset2 = float2(0.001,0.0);
float depth1 = tex2D(_DepthTextureSampler, texcoords + offset1).r;
float depth2 = tex2D(_DepthTextureSampler, texcoords + offset2).r;
float3 p1 = float3(offset1, depth1 - depth);
float3 p2 = float3(offset2, depth2 - depth);
float3 normal = cross(p1, p2);
normal.z = -normal.z;
return normalize(normal);
}
float4 ps_ssao(v2f In) : COLOR
{
float4 Output;
const int samples = 8;
/*
const float3 sample_sphere[16] = {
float3( 0.5381, 0.1856,-0.4319), float3( 0.1379, 0.2486, 0.4430),
float3( 0.3371, 0.5679,-0.0057), float3(-0.6999,-0.0451,-0.0019),
float3( 0.0689,-0.1598,-0.8547), float3( 0.0560, 0.0069,-0.1843),
float3(-0.0146, 0.1402, 0.0762), float3( 0.0100,-0.1924,-0.0344),
float3(-0.3577,-0.5301,-0.4358), float3(-0.3169, 0.1063, 0.0158),
float3( 0.0103,-0.5869, 0.0046), float3(-0.0897,-0.4940, 0.3287),
float3( 0.7119,-0.0154,-0.0918), float3(-0.0533, 0.0596,-0.5411),
float3( 0.0352,-0.0631, 0.5460), float3(-0.4776, 0.2847,-0.0271)
};
*/
const float3 sample_sphere[8] = {
float3(0.01305719,0.5872321,-0.119337),
float3(0.3230782,0.02207272,-0.4188725),
float3(-0.310725,-0.191367,0.05613686),
float3(-0.4796457,0.09398766,-0.5802653),
float3(0.1399992,-0.3357702,0.5596789),
float3(-0.2484578,0.2555322,0.3489439),
float3(0.1871898,-0.702764,-0.2317479),
float3(0.8849149,0.2842076,0.368524),
};
float3 random = normalize( tex2D(_RandomTextureSampler, In.uv*4.0/*In.Tex0 * 4.0)*/).rgb );
float depth = tex2D(_DepthTextureSampler, In.uv).r;
float3 position = float3(In.uv, depth);
float3 normal = normal_from_depth(depth, In.uv);
float _Radius_depth = _Radius/depth;
float occlusion = 0.0;
for(int i=0; i < samples; i++) {
float3 ray = _Radius_depth * reflect(sample_sphere[i], random);
float3 hemi_ray = position + sign(dot(ray,normal)) * ray;
float occ_depth = tex2D(_DepthTextureSampler, saturate(hemi_ray.xy)).r;
float difference = depth - occ_depth;
occlusion += step(_Falloff, difference) * (1.0-smoothstep(_Falloff, _Area, difference));
}
float ao = 1.0 - _Strength * occlusion * (1.0 / samples);
Output.rgb = saturate(ao + _Base);// * tex2D(_MainTex, In.uv);
return Output;
}
ENDCG
}
}
}
```