#line 8
struct v2f {
    highp vec4 pos;
    highp vec2 uv;
};
#line 3
uniform highp vec4 _ZBufferParams;
#line 14
uniform sampler2D _MainTex;
uniform sampler2D _CameraDepthTexture;
uniform sampler2D _VelTex;
uniform sampler2D _NeighbourMaxTex;
#line 18
uniform sampler2D _NoiseTex;
uniform highp vec4 _MainTex_TexelSize;
uniform highp vec4 _CameraDepthTexture_TexelSize;
uniform highp vec4 _VelTex_TexelSize;
#line 22
uniform highp mat4 _InvViewProj;
uniform highp mat4 _PrevViewProj;
uniform highp mat4 _ToPrevViewProjCombined;
uniform highp float _MaxVelocity;
#line 26
uniform highp float _MinVelocity;
uniform highp vec4 _VelBufferSize;
uniform highp vec4 _TileBufferSize;
uniform highp vec4 _BlurDirectionPacked;
#line 30
uniform highp float _SoftZDistance;
#line 38
#line 42
#line 47
#line 52
#line 4
highp float Linear01Depth( in highp float z ) {
    return (1.0 / ((_ZBufferParams.x * z) + _ZBufferParams.y));
}
#line 38
highp float cone( in highp vec2 x, in highp vec2 y, in highp vec2 v ) {
    return clamp( (1.0 - (length((x - y)) / length(v))), 0.0, 1.0);
}
#line 42
highp float cylinder( in highp vec2 x, in highp vec2 y, in highp vec2 v ) {
    highp float lv = length(v);
    return (1.0 - smoothstep( (0.95 * lv), (1.05 * lv), length((x - y))));
}
#line 47
highp float softDepthCompare( in highp float za, in highp float zb ) {
    return clamp( (1.0 - ((za - zb) / _SoftZDistance)), 0.0, 1.0);
}
#line 52
highp vec4 xlat_main( in v2f i ) {
    highp vec2 x = i.uv;
    highp vec2 xf = x;
    #line 56
    highp vec2 x2 = ((xf * _VelBufferSize.xy) / (_TileBufferSize.xy * 8.0));
    highp vec2 vn = texture( _NeighbourMaxTex, x2).xy;
    highp vec4 cx = texture( _MainTex, x);
    highp float zx = texture( _CameraDepthTexture, x).x;
    #line 60
    zx = (-Linear01Depth( zx));
    highp vec2 vx = texture( _VelTex, xf).xy;
    highp ivec2 pixelCoord = ivec2((i.uv * _MainTex_TexelSize.zw));
    highp float j = (texture( _NoiseTex, (i.uv * 4.0)).x * 0.25);
    #line 64
    highp float weight = 1.0;
    highp vec4 sum = (cx * weight);
    highp int centerSample = 6;
    highp int i_1 = 0;
    for ( ; (i_1 < 13); (i_1++)) {
        #line 69
        highp float contrib = 1.0;
        if ((i_1 == centerSample)){
            contrib = 0.0;
        }
        highp float t = mix( -1.0, 1.0, (((float(i_1) + j) + 1.0) / 14.0));
        highp vec2 y = (x + (vn * t));
        #line 73
        highp vec2 yf = y;
        highp vec2 vy = texture( _VelTex, vec4( yf, 0.0, 0.0).xy).xy;
        highp float zy = texture( _CameraDepthTexture, vec4( y, 0.0, 0.0).xy).x;
        zy = (-Linear01Depth( zy));
        #line 77
        highp float f = softDepthCompare( zx, zy);
        highp float b = softDepthCompare( zy, zx);
        highp float alphay = (((f * cone( y, x, vy)) + (b * cone( x, y, vx))) + ((cylinder( y, x, vy) * cylinder( x, y, vx)) * 2.0));
        highp vec4 cy = texture( _MainTex, vec4( y, 0.0, 0.0).xy);
        #line 81
        sum += ((cy * alphay) * contrib);
        weight += (alphay * contrib);
    }
    sum /= weight;
    #line 85
    return sum;
}
in highp vec2 xlv_TEXCOORD0;
void main() {
    highp vec4 xl_retval;
    v2f xlt_i;
    xlt_i.pos = vec4(0.0);
    xlt_i.uv = vec2(xlv_TEXCOORD0);
    xl_retval = xlat_main( xlt_i);
    gl_FragData[0] = vec4(xl_retval);
}

// uniforms:
// _CameraDepthTexture:<none> type 25 arrsize 0
// _MainTex:<none> type 25 arrsize 0
// _MainTex_TexelSize:<none> type 12 arrsize 0
// _NeighbourMaxTex:<none> type 25 arrsize 0
// _NoiseTex:<none> type 25 arrsize 0
// _SoftZDistance:<none> type 9 arrsize 0
// _TileBufferSize:<none> type 12 arrsize 0
// _VelBufferSize:<none> type 12 arrsize 0
// _VelTex:<none> type 25 arrsize 0
// _ZBufferParams:<none> type 12 arrsize 0