[Bug]: OpenRV 3.1.0 - GL program ERROR with custom colorspace in OCIO 2.1.0

[sebastianbrandhuber]

What happened?

Hi!
We are currently using a custom ColorSpace definition in the OCIO config to view
files with a baked display view transform without the need to change the display transform in RV itself:

- !<ColorSpace>
  name: Output - ACES 1.0 - SDR Video (Rec.1886 Rec.709)
  aliases: [rec709]
  family: Output
  description: ACES 1.0 SDR-video for Rec.709 HD video with Rec.1886 gamma (2.4)
  isdata: false
  categories: [ file-io ]
  encoding: sdr-video
  from_reference: !<GroupTransform>
    children:
      - !<DisplayViewTransform> {src: ACES2065-1, display: "Rec.1886 Rec.709 - Display", view: "ACES 1.0 - SDR Video"}
      - !<RangeTransform> {min_in_value: 0., min_out_value: 0., max_in_value: 1., max_out_value: 1.}

The colorspace itself looks correct (and also works for all our dccs like nuke, houdini),
but as soon as I switch from sequence to the source directly, the error occurs and the view gets black.

I found this old issue which is very similar, but since it was closed and produced a different error,
I am reopening a new issue for this.
#403

Any help is appreciated,
thanks,
Sebastian

List all the operating systems versions where this is happening

Windows 11

On what computer hardware is this happening?

Memory: 128GB, CPU: Intel i9 14900k , GPU: NVIDIA GeForce RTX 4080 Super

Relevant console log output

ERROR: // 
ERROR: // VERTEX PROGRAM 
ERROR: // 
ERROR: 1: #version 150 
ERROR: 2: 
ERROR: 3: in vec2 in_Position; 
ERROR: 4: uniform mat4 projMatrix, modelviewMatrix; 
ERROR: 5: in vec2 in_TexCoord0; 
ERROR: 6: out vec2 TexCoord0; 
ERROR: 7: void main() 
ERROR: 8: { 
ERROR: 9: TexCoord0 = in_TexCoord0; 
ERROR: 10: gl_Position = projMatrix * modelviewMatrix * vec4(in_Position, 0, 1); 
ERROR: 11: } 
ERROR: 12: 
ERROR: // 
ERROR: // FUNCTION: ResizeDownSampleDerivative 
ERROR: // 
ERROR: 1: 
ERROR: 2: 
ERROR: 3: 
ERROR: 4: 
ERROR: 5: 
ERROR: 6: vec4 ResizeDownSampleDerivativeb6a2019f (const in vec2 _offset) 
ERROR: 7: { 
ERROR: 8: 
ERROR: 9: vec2 absDer = fwidth( in0.st ); 
ERROR: 10: 
ERROR: 11: 
ERROR: 12: float maxAbsDer = max( absDer.x, absDer.y ); 
ERROR: 13: 
ERROR: 14: 
ERROR: 15: 
ERROR: 16: 
ERROR: 17: int KERNEL_SIZE = int( maxAbsDer / 2.0 ); 
ERROR: 18: 
ERROR: 19: 
ERROR: 20: 
ERROR: 21: 
ERROR: 22: 
ERROR: 23: 
ERROR: 24: 
ERROR: 25: 
ERROR: 26: 
ERROR: 27: 
ERROR: 28: 
ERROR: 29: 
ERROR: 30: 
ERROR: 31: 
ERROR: 32: 
ERROR: 33: 
ERROR: 34: 
ERROR: 35: 
ERROR: 36: 
ERROR: 37: 
ERROR: 38: 
ERROR: 39: 
ERROR: 40: if ( KERNEL_SIZE ERROR: 41: { 
ERROR: 42: KERNEL_SIZE = 0; 
ERROR: 43: } 
ERROR: 44: else if ( KERNEL_SIZE > 16 ) 
ERROR: 45: { 
ERROR: 46: KERNEL_SIZE = 16; 
ERROR: 47: } 
ERROR: 48: 
ERROR: 49: 
ERROR: 50: vec4 averageColor=vec4(0.0,0.0,0.0,0.0); 
ERROR: 51: for ( int x = -KERNEL_SIZE ; x ERROR: 52: { 
ERROR: 53: for ( int y = -KERNEL_SIZE ; y ERROR: 54: { 
ERROR: 55: averageColor+= in0( vec2 ( x , y ) ); 
ERROR: 56: } 
ERROR: 57: } 
ERROR: 58: 
ERROR: 59: 
ERROR: 60: float nbSamples = float( ( KERNEL_SIZE * 2 + 1 )* ( KERNEL_SIZE * 2 + 1 ) ); 
ERROR: 61: averageColor /= vec4(nbSamples); 
ERROR: 62: 
ERROR: 63: return averageColor; 
ERROR: 64: } 
ERROR: 65: 
ERROR: 66: 
ERROR: // 
ERROR: // FUNCTION: OCIO_d_Rec_1886_Rec_709_Display_ACES_1_0_SDR_Video_displayGroup0_colorPipeline_0_a70bdbda61d952ca 
ERROR: // 
ERROR: 1: 
ERROR: 
ERROR: 2: 
ERROR: 3: 
ERROR: 4: const int ocio_grading_rgbcurve_knotsOffsets_03d1ac249[8] = int[8](-1, 0, -1, 0, -1, 0, 0, 9); 
ERROR: 5: const float ocio_grading_rgbcurve_knots_03d1ac249[9] = float[9](-5.26017761, -3.75502753, -2.24987745, -0.744727492, 1.06145251, 1.96573484, 2.86763239, 3.77526045, 4.67381239); 
ERROR: 6: const int ocio_grading_rgbcurve_coefsOffsets_03d1ac249[8] = int[8](-1, 0, -1, 0, -1, 0, 0, 24); 
ERROR: 7: const float ocio_grading_rgbcurve_coefs_03d1ac249[24] = float[24](0.185970441, 0.403778881, -0.0748505071, -0.185833707, -0.192129433, -0.19314684, -0.0501050949, -0.0511224195, 0., 0.559826851, 1.77532244, 1.54999995, 0.878701687, 0.531223178, 0.182825878, 0.0918722972, -4., -3.57868838, -1.82131326, 0.681241214, 2.87457752, 3.51206255, 3.8340621, 3.95872402); 
ERROR: 8: 
ERROR: 9: float ocio_grading_rgbcurve_evalBSplineCurve_03d1ac249(in int curveIdx, in float x) 
ERROR: 10: { 
ERROR: 11: int knotsOffs = ocio_grading_rgbcurve_knotsOffsets_03d1ac249[curveIdx * 2]; 
ERROR: 12: int knotsCnt = ocio_grading_rgbcurve_knotsOffsets_03d1ac249[curveIdx * 2 + 1]; 
ERROR: 13: int coefsOffs = ocio_grading_rgbcurve_coefsOffsets_03d1ac249[curveIdx * 2]; 
ERROR: 14: int coefsCnt = ocio_grading_rgbcurve_coefsOffsets_03d1ac249[curveIdx * 2 + 1]; 
ERROR: 15: int coefsSets = coefsCnt / 3; 
ERROR: 16: if (coefsSets == 0) 
ERROR: 17: { 
ERROR: 18: return x; 
ERROR: 19: } 
ERROR: 20: float knStart = ocio_grading_rgbcurve_knots_03d1ac249[knotsOffs]; 
ERROR: 21: float knEnd = ocio_grading_rgbcurve_knots_03d1ac249[knotsOffs + knotsCnt - 1]; 
ERROR: 22: if (x ERROR: 23: { 
ERROR: 24: float B = ocio_grading_rgbcurve_coefs_03d1ac249[coefsOffs + coefsSets]; 
ERROR: 25: float C = ocio_grading_rgbcurve_coefs_03d1ac249[coefsOffs + coefsSets * 2]; 
ERROR: 26: return (x - knStart) * B + C; 
ERROR: 27: } 
ERROR: 28: else if (x >= knEnd) 
ERROR: 29: { 
ERROR: 30: float A = ocio_grading_rgbcurve_coefs_03d1ac249[coefsOffs + coefsSets - 1]; 
ERROR: 31: float B = ocio_grading_rgbcurve_coefs_03d1ac249[coefsOffs + coefsSets * 2 - 1]; 
ERROR: 32: float C = ocio_grading_rgbcurve_coefs_03d1ac249[coefsOffs + coefsSets * 3 - 1]; 
ERROR: 33: float kn = ocio_grading_rgbcurve_knots_03d1ac249[knotsOffs + knotsCnt - 2]; 
ERROR: 34: float t = knEnd - kn; 
ERROR: 35: float slope = 2. * A * t + B; 
ERROR: 36: float offs = ( A * t + B ) * t + C; 
ERROR: 37: return (x - knEnd) * slope + offs; 
ERROR: 38: } 
ERROR: 39: int i = 0; 
ERROR: 40: for (i = 0; i ERROR: 41: { 
ERROR: 42: if (x ERROR: 43: { 
ERROR: 44: break; 
ERROR: 45: } 
ERROR: 46: } 
ERROR: 47: float A = ocio_grading_rgbcurve_coefs_03d1ac249[coefsOffs + i]; 
ERROR: 48: float B = ocio_grading_rgbcurve_coefs_03d1ac249[coefsOffs + coefsSets + i]; 
ERROR: 49: float C = ocio_grading_rgbcurve_coefs_03d1ac249[coefsOffs + coefsSets * 2 + i]; 
ERROR: 50: float kn = ocio_grading_rgbcurve_knots_03d1ac249[knotsOffs + i]; 
ERROR: 51: float t = x - kn; 
ERROR: 52: return ( A * t + B ) * t + C; 
ERROR: 53: } 
ERROR: 54: 
ERROR: 55: const int ocio_grading_rgbcurve_knotsOffsets_13d1ac249[8] = int[8](-1, 0, -1, 0, -1, 0, 0, 15); 
ERROR: 56: const float ocio_grading_rgbcurve_knots_13d1ac249[15] = float[15](-2.54062366, -2.08035731, -1.62009084, -1.15982437, -0.69955802, -0.239291579, 0.220974833, 0.681241214, 1.01284635, 1.34445143, 1.6760565, 2.00766158, 2.33926654, 2.67087173, 3.00247669); 
ERROR: 57: const int ocio_grading_rgbcurve_coefsOffsets_13d1ac249[8] = int[8](-1, 0, -1, 0, -1, 0, 0, 42); 
ERROR: 58: const float ocio_grading_rgbcurve_coefs_13d1ac249[42] = float[42](0.521772683, 0.0654487088, 0.272604734, 0.123911291, 0.0858645961, -0.0171162505, 0.0338416733, -0.194834962, -0.201688975, -0.476983279, -0.276004612, -0.139139131, -0.0922630876, -0.0665909499, 0., 0.480308801, 0.54055649, 0.791498125, 0.90556252, 0.984603703, 0.968847632, 1., 0.870783448, 0.737021267, 0.420681119, 0.237632066, 0.145353615, 0.0841637775, -1.69896996, -1.58843505, -1.35350001, -1.04694998, -0.656400025, -0.221410006, 0.22814402, 0.681241214, 0.991421878, 1.25800002, 1.44994998, 1.55910003, 1.62259996, 1.66065454); 
ERROR: 59: 
ERROR: 60: float ocio_grading_rgbcurve_evalBSplineCurve_13d1ac249(in int curveIdx, in float x) 
ERROR: 61: { 
ERROR: 62: int knotsOffs = ocio_grading_rgbcurve_knotsOffsets_13d1ac249[curveIdx * 2]; 
ERROR: 63: int knotsCnt = ocio_grading_rgbcurve_knotsOffsets_13d1ac249[curveIdx * 2 + 1]; 
ERROR: 64: int coefsOffs = ocio_grading_rgbcurve_coefsOffsets_13d1ac249[curveIdx * 2]; 
ERROR: 65: int coefsCnt = ocio_grading_rgbcurve_coefsOffsets_13d1ac249[curveIdx * 2 + 1]; 
ERROR: 66: int coefsSets = coefsCnt / 3; 
ERROR: 67: if (coefsSets == 0) 
ERROR: 68: { 
ERROR: 69: return x; 
ERROR: 70: } 
ERROR: 71: float knStart = ocio_grading_rgbcurve_knots_13d1ac249[knotsOffs]; 
ERROR: 72: float knEnd = ocio_grading_rgbcurve_knots_13d1ac249[knotsOffs + knotsCnt - 1]; 
ERROR: 73: if (x ERROR: 74: { 
ERROR: 75: float B = ocio_grading_rgbcurve_coefs_13d1ac249[coefsOffs + coefsSets]; 
ERROR: 76: float C = ocio_grading_rgbcurve_coefs_13d1ac249[coefsOffs + coefsSets * 2]; 
ERROR: 77: return (x - knStart) * B + C; 
ERROR: 78: } 
ERROR: 79: else if (x >= knEnd) 
ERROR: 80: { 
ERROR: 81: float A = ocio_grading_rgbcurve_coefs_13d1ac249[coefsOffs + coefsSets - 1]; 
ERROR: 82: float B = ocio_grading_rgbcurve_coefs_13d1ac249[coefsOffs + coefsSets * 2 - 1]; 
ERROR: 83: float C = ocio_grading_rgbcurve_coefs_13d1ac249[coefsOffs + coefsSets * 3 - 1]; 
ERROR: 84: float kn = ocio_grading_rgbcurve_knots_13d1ac249[knotsOffs + knotsCnt - 2]; 
ERROR: 85: float t = knEnd - kn; 
ERROR: 86: float slope = 2. * A * t + B; 
ERROR: 87: float offs = ( A * t + B ) * t + C; 
ERROR: 88: return (x - knEnd) * slope + offs; 
ERROR: 89: } 
ERROR: 90: int i = 0; 
ERROR: 91: for (i = 0; i ERROR: 92: { 
ERROR: 93: if (x ERROR: 94: { 
ERROR: 95: break; 
ERROR: 96: } 
ERROR: 97: } 
ERROR: 98: float A = ocio_grading_rgbcurve_coefs_13d1ac249[coefsOffs + i]; 
ERROR: 99: float B = ocio_grading_rgbcurve_coefs_13d1ac249[coefsOffs + coefsSets + i]; 
ERROR: 100: float C = ocio_grading_rgbcurve_coefs_13d1ac249[coefsOffs + coefsSets * 2 + i]; 
ERROR: 101: float kn = ocio_grading_rgbcurve_knots_13d1ac249[knotsOffs + i]; 
ERROR: 102: float t = x - kn; 
ERROR: 103: return ( A * t + B ) * t + C; 
ERROR: 104: } 
ERROR: 105: 
ERROR: 106: 
ERROR: 107: 
ERROR: 108: vec4 OCIO_d_Rec_1886_Rec_709_Display_ACES_1_0_SDR_Video_displayGroup0_colorPipeline_0_a70bdbda61d952ca3d1ac249 ( in vec4 inPixel) 
ERROR: 109: { 
ERROR: 110: vec4 outColor = inPixel; 
ERROR: 111: 
ERROR: 112: 
ERROR: 113: 
ERROR: 114: { 
ERROR: 115: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 116: vec4 tmp = res; 
ERROR: 117: res = mat4(0.69545224135745187, 0.044794563372037716, -0.0055258825581135443, 0., 0.14067869647029416, 0.85967111845642163, 0.0040252103059786595, 0., 0.16386906217225405, 0.0955343181715404, 1.0015006722521349, 0., 0., 0., 0., 1.) * tmp; 
ERROR: 118: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 119: outColor.a = res.w; 
ERROR: 120: } 
ERROR: 121: 
ERROR: 122: 
ERROR: 123: 
ERROR: 124: { 
ERROR: 125: float chroma = sqrt( outColor.rgb.b * (outColor.rgb.b - outColor.rgb.g) + outColor.rgb.g * (outColor.rgb.g - outColor.rgb.r) + outColor.rgb.r * (outColor.rgb.r - outColor.rgb.b) ); 
ERROR: 126: float YC = (outColor.rgb.b + outColor.rgb.g + outColor.rgb.r + 1.75 * chroma) / 3.; 
ERROR: 127: float maxval = max( outColor.rgb.r, max( outColor.rgb.g, outColor.rgb.b)); 
ERROR: 128: float minval = min( outColor.rgb.r, min( outColor.rgb.g, outColor.rgb.b)); 
ERROR: 129: float sat = ( max(1e-10, maxval) - max(1e-10, minval) ) / max(1e-2, maxval); 
ERROR: 130: float x = (sat - 0.4) * 5.; 
ERROR: 131: float t = max( 0., 1. - 0.5 * abs(x)); 
ERROR: 132: float s = 0.5 * (1. + sign(x) * (1. - t * t)); 
ERROR: 133: float GlowGain = 0.0500000007 * s; 
ERROR: 134: float GlowMid = 0.0799999982; 
ERROR: 135: float glowGainOut = mix(GlowGain, GlowGain * (GlowMid / YC - 0.5), float( YC > GlowMid * 2. / 3. )); 
ERROR: 136: glowGainOut = mix(glowGainOut, 0., float( YC > GlowMid * 2. )); 
ERROR: 137: outColor.rgb = outColor.rgb * glowGainOut + outColor.rgb; 
ERROR: 138: } 
ERROR: 139: 
ERROR: 140: 
ERROR: 141: 
ERROR: 142: { 
ERROR: 143: float a = 2.0 * outColor.rgb.r - (outColor.rgb.g + outColor.rgb.b); 
ERROR: 144: float b = 1.7320508075688772 * (outColor.rgb.g - outColor.rgb.b); 
ERROR: 145: float hue = atan(b, a); 
ERROR: 146: float knot_coord = clamp(2. + hue * float(1.6976527), 0., 4.); 
ERROR: 147: int j = int(min(knot_coord, 3.)); 
ERROR: 148: float t = knot_coord - float(j); 
ERROR: 149: vec4 monomials = vec4(t*t*t, t*t, t, 1.); 
ERROR: 150: vec4 m0 = vec4(0.25, 0., 0., 0.); 
ERROR: 151: vec4 m1 = vec4(-0.75, 0.75, 0.75, 0.25); 
ERROR: 152: vec4 m2 = vec4(0.75, -1.5, 0., 1.); 
ERROR: 153: vec4 m3 = vec4(-0.25, 0.75, -0.75, 0.25); 
ERROR: 154: vec4 coefs = mix(m0, m1, float(j == 1)); 
ERROR: 155: coefs = mix(coefs, m2, float(j == 2)); 
ERROR: 156: coefs = mix(coefs, m3, float(j == 3)); 
ERROR: 157: float f_H = dot(coefs, monomials); 
ERROR: 158: float maxval = max( outColor.rgb.r, max( outColor.rgb.g, outColor.rgb.b)); 
ERROR: 159: float minval = min( outColor.rgb.r, min( outColor.rgb.g, outColor.rgb.b)); 
ERROR: 160: float f_S = ( max(1e-10, maxval) - max(1e-10, minval) ) / max(1e-2, maxval); 
ERROR: 161: outColor.rgb.r = outColor.rgb.r + f_H * f_S * (0.0299999993 - outColor.rgb.r) * 0.180000007; 
ERROR: 162: } 
ERROR: 163: 
ERROR: 164: 
ERROR: 165: 
ERROR: 166: { 
ERROR: 167: outColor.rgb = max(vec3(0., 0., 0.), outColor.rgb); 
ERROR: 168: } 
ERROR: 169: 
ERROR: 170: 
ERROR: 171: 
ERROR: 172: { 
ERROR: 173: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 174: vec4 tmp = res; 
ERROR: 175: res = mat4(1.4514393161456653, -0.07655377339602043, 0.008316148425697719, 0., -0.23651074689374019, 1.1762296998335731, -0.0060324497910210278, 0., -0.21492856925192524, -0.099675926437552201, 0.9977163013653233, 0., 0., 0., 0., 1.) * tmp; 
ERROR: 176: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 177: outColor.a = res.w; 
ERROR: 178: } 
ERROR: 179: 
ERROR: 180: 
ERROR: 181: 
ERROR: 182: { 
ERROR: 183: outColor.rgb = max(vec3(0., 0., 0.), outColor.rgb); 
ERROR: 184: } 
ERROR: 185: 
ERROR: 186: 
ERROR: 187: 
ERROR: 188: { 
ERROR: 189: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 190: vec4 tmp = res; 
ERROR: 191: res = mat4(0.97088914867099996, 0.010889148671, 0.010889148671, 0., 0.026963270631999998, 0.98696327063199996, 0.026963270631999998, 0., 0.0021475806959999999, 0.0021475806959999999, 0.96214758069600004, 0., 0., 0., 0., 1.) * tmp; 
ERROR: 192: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 193: outColor.a = res.w; 
ERROR: 194: } 
ERROR: 195: 
ERROR: 196: 
ERROR: 197: 
ERROR: 198: { 
ERROR: 199: outColor.rgb = max( vec3(1.17549435e-38, 1.17549435e-38, 1.17549435e-38), outColor.rgb); 
ERROR: 200: outColor.rgb = log(outColor.rgb) * vec3(0.434294462, 0.434294462, 0.434294462); 
ERROR: 201: } 
ERROR: 202: 
ERROR: 203: 
ERROR: 204: 
ERROR: 205: { 
ERROR: 206: outColor.rgb.r = ocio_grading_rgbcurve_evalBSplineCurve_03d1ac249(0, outColor.rgb.r); 
ERROR: 207: outColor.rgb.g = ocio_grading_rgbcurve_evalBSplineCurve_03d1ac249(1, outColor.rgb.g); 
ERROR: 208: outColor.rgb.b = ocio_grading_rgbcurve_evalBSplineCurve_03d1ac249(2, outColor.rgb.b); 
ERROR: 209: outColor.rgb.r = ocio_grading_rgbcurve_evalBSplineCurve_03d1ac249(3, outColor.rgb.r); 
ERROR: 210: outColor.rgb.g = ocio_grading_rgbcurve_evalBSplineCurve_03d1ac249(3, outColor.rgb.g); 
ERROR: 211: outColor.rgb.b = ocio_grading_rgbcurve_evalBSplineCurve_03d1ac249(3, outColor.rgb.b); 
ERROR: 212: } 
ERROR: 213: 
ERROR: 214: 
ERROR: 215: 
ERROR: 216: { 
ERROR: 217: outColor.rgb.r = ocio_grading_rgbcurve_evalBSplineCurve_13d1ac249(0, outColor.rgb.r); 
ERROR: 218: outColor.rgb.g = ocio_grading_rgbcurve_evalBSplineCurve_13d1ac249(1, outColor.rgb.g); 
ERROR: 219: outColor.rgb.b = ocio_grading_rgbcurve_evalBSplineCurve_13d1ac249(2, outColor.rgb.b); 
ERROR: 220: outColor.rgb.r = ocio_grading_rgbcurve_evalBSplineCurve_13d1ac249(3, outColor.rgb.r); 
ERROR: 221: outColor.rgb.g = ocio_grading_rgbcurve_evalBSplineCurve_13d1ac249(3, outColor.rgb.g); 
ERROR: 222: outColor.rgb.b = ocio_grading_rgbcurve_evalBSplineCurve_13d1ac249(3, outColor.rgb.b); 
ERROR: 223: } 
ERROR: 224: 
ERROR: 225: 
ERROR: 226: 
ERROR: 227: { 
ERROR: 228: outColor.rgb = pow( vec3(10., 10., 10.), outColor.rgb); 
ERROR: 229: } 
ERROR: 230: 
ERROR: 231: 
ERROR: 232: 
ERROR: 233: { 
ERROR: 234: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 235: res = vec4(0.0208420176, 0.0208420176, 0.0208420176, 1.) * res; 
ERROR: 236: res = vec4(-0.000416840339, -0.000416840339, -0.000416840339, 0.) + res; 
ERROR: 237: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 238: outColor.a = res.w; 
ERROR: 239: } 
ERROR: 240: 
ERROR: 241: 
ERROR: 242: 
ERROR: 243: { 
ERROR: 244: float Y = max( 1e-10, 0.27222871678091454 * outColor.rgb.r + 0.67408176581114831 * outColor.rgb.g + 0.053689517407937051 * outColor.rgb.b ); 
ERROR: 245: float Ypow_over_Y = pow( Y, -0.0188999772); 
ERROR: 246: outColor.rgb = outColor.rgb * Ypow_over_Y; 
ERROR: 247: } 
ERROR: 248: 
ERROR: 249: 
ERROR: 250: 
ERROR: 251: { 
ERROR: 252: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 253: vec4 tmp = res; 
ERROR: 254: res = mat4(1.604753433346922, -0.10208245810655031, -0.0032671116532946819, 0., -0.531080948604018, 1.1081341286221253, -0.072755424133422703, 0., -0.073672484741910349, -0.0060516705145729488, 1.0760225357877193, 0., 0., 0., 0., 1.) * tmp; 
ERROR: 255: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 256: outColor.a = res.w; 
ERROR: 257: } 
ERROR: 258: 
ERROR: 259: 
ERROR: 260: 
ERROR: 261: { 
ERROR: 262: vec4 gamma = vec4(0.41666666666666669, 0.41666666666666669, 0.41666666666666669, 1.); 
ERROR: 263: vec4 res = pow( max( vec4(0., 0., 0., 0.), outColor ), gamma ); 
ERROR: 264: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 265: outColor.a = res.w; 
ERROR: 266: } 
ERROR: 267: 
ERROR: 268: return outColor; 
ERROR: 269: } 
ERROR: 270: 
ERROR: // 
ERROR: // FUNCTION: OCIO_c_Output_ACES_1_0_SDR_Video_Rec_1886_Rec_709_2_ACEScg_sourceGroup000000_tolinPipeline_0_62236c128fa3023c 
ERROR: // 
ERROR: 1: 
ERROR: 
ERROR: 2: 
ERROR: 3: 
ERROR: 4: const int ocio_grading_rgbcurve_knotsOffsets_05eaefa7f[8] = int[8](-1, 0, -1, 0, -1, 0, 0, 15); 
ERROR: 5: const float ocio_grading_rgbcurve_knots_05eaefa7f[15] = float[15](-2.54062366, -2.08035731, -1.62009084, -1.15982437, -0.69955802, -0.239291579, 0.220974833, 0.681241214, 1.01284635, 1.34445143, 1.6760565, 2.00766158, 2.33926654, 2.67087173, 3.00247669); 
ERROR: 6: const int ocio_grading_rgbcurve_coefsOffsets_05eaefa7f[8] = int[8](-1, 0, -1, 0, -1, 0, 0, 42); 
ERROR: 7: const float ocio_grading_rgbcurve_coefs_05eaefa7f[42] = float[42](0.521772683, 0.0654487088, 0.272604734, 0.123911291, 0.0858645961, -0.0171162505, 0.0338416733, -0.194834962, -0.201688975, -0.476983279, -0.276004612, -0.139139131, -0.0922630876, -0.0665909499, 0., 0.480308801, 0.54055649, 0.791498125, 0.90556252, 0.984603703, 0.968847632, 1., 0.870783448, 0.737021267, 0.420681119, 0.237632066, 0.145353615, 0.0841637775, -1.69896996, -1.58843505, -1.35350001, -1.04694998, -0.656400025, -0.221410006, 0.22814402, 0.681241214, 0.991421878, 1.25800002, 1.44994998, 1.55910003, 1.62259996, 1.66065454); 
ERROR: 8: 
ERROR: 9: float ocio_grading_rgbcurve_evalBSplineCurve_05eaefa7f(in int curveIdx, in float x) 
ERROR: 10: { 
ERROR: 11: int knotsOffs = ocio_grading_rgbcurve_knotsOffsets_05eaefa7f[curveIdx * 2]; 
ERROR: 12: int knotsCnt = ocio_grading_rgbcurve_knotsOffsets_05eaefa7f[curveIdx * 2 + 1]; 
ERROR: 13: int coefsOffs = ocio_grading_rgbcurve_coefsOffsets_05eaefa7f[curveIdx * 2]; 
ERROR: 14: int coefsCnt = ocio_grading_rgbcurve_coefsOffsets_05eaefa7f[curveIdx * 2 + 1]; 
ERROR: 15: int coefsSets = coefsCnt / 3; 
ERROR: 16: if (coefsSets == 0) 
ERROR: 17: { 
ERROR: 18: return x; 
ERROR: 19: } 
ERROR: 20: float knStart = ocio_grading_rgbcurve_knots_05eaefa7f[knotsOffs]; 
ERROR: 21: float knEnd = ocio_grading_rgbcurve_knots_05eaefa7f[knotsOffs + knotsCnt - 1]; 
ERROR: 22: float knStartY = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets * 2]; 
ERROR: 23: float knEndY; 
ERROR: 24: { 
ERROR: 25: float A = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets - 1]; 
ERROR: 26: float B = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets * 2 - 1]; 
ERROR: 27: float C = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets * 3 - 1]; 
ERROR: 28: float kn = ocio_grading_rgbcurve_knots_05eaefa7f[knotsOffs + knotsCnt - 2]; 
ERROR: 29: float t = knEnd - kn; 
ERROR: 30: knEndY = ( A * t + B ) * t + C; 
ERROR: 31: } 
ERROR: 32: if (x ERROR: 33: { 
ERROR: 34: float B = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets]; 
ERROR: 35: float C = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets * 2]; 
ERROR: 36: return abs(B) ERROR: 37: } 
ERROR: 38: else if (x >= knEndY) 
ERROR: 39: { 
ERROR: 40: float A = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets - 1]; 
ERROR: 41: float B = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets * 2 - 1]; 
ERROR: 42: float C = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets * 3 - 1]; 
ERROR: 43: float kn = ocio_grading_rgbcurve_knots_05eaefa7f[knotsOffs + knotsCnt - 2]; 
ERROR: 44: float t = knEnd - kn; 
ERROR: 45: float slope = 2. * A * t + B; 
ERROR: 46: float offs = ( A * t + B ) * t + C; 
ERROR: 47: return abs(slope) ERROR: 48: } 
ERROR: 49: int i = 0; 
ERROR: 50: for (i = 0; i ERROR: 51: { 
ERROR: 52: if (x ERROR: 53: { 
ERROR: 54: break; 
ERROR: 55: } 
ERROR: 56: } 
ERROR: 57: float A = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + i]; 
ERROR: 58: float B = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets + i]; 
ERROR: 59: float C = ocio_grading_rgbcurve_coefs_05eaefa7f[coefsOffs + coefsSets * 2 + i]; 
ERROR: 60: float kn = ocio_grading_rgbcurve_knots_05eaefa7f[knotsOffs + i]; 
ERROR: 61: float C0 = C - x; 
ERROR: 62: float discrim = sqrt(B * B - 4. * A * C0); 
ERROR: 63: return kn + (-2. * C0) / (discrim + B); 
ERROR: 64: } 
ERROR: 65: 
ERROR: 66: const int ocio_grading_rgbcurve_knotsOffsets_15eaefa7f[8] = int[8](-1, 0, -1, 0, -1, 0, 0, 9); 
ERROR: 67: const float ocio_grading_rgbcurve_knots_15eaefa7f[9] = float[9](-5.26017761, -3.75502753, -2.24987745, -0.744727492, 1.06145251, 1.96573484, 2.86763239, 3.77526045, 4.67381239); 
ERROR: 68: const int ocio_grading_rgbcurve_coefsOffsets_15eaefa7f[8] = int[8](-1, 0, -1, 0, -1, 0, 0, 24); 
ERROR: 69: const float ocio_grading_rgbcurve_coefs_15eaefa7f[24] = float[24](0.185970441, 0.403778881, -0.0748505071, -0.185833707, -0.192129433, -0.19314684, -0.0501050949, -0.0511224195, 0., 0.559826851, 1.77532244, 1.54999995, 0.878701687, 0.531223178, 0.182825878, 0.0918722972, -4., -3.57868838, -1.82131326, 0.681241214, 2.87457752, 3.51206255, 3.8340621, 3.95872402); 
ERROR: 70: 
ERROR: 71: float ocio_grading_rgbcurve_evalBSplineCurve_15eaefa7f(in int curveIdx, in float x) 
ERROR: 72: { 
ERROR: 73: int knotsOffs = ocio_grading_rgbcurve_knotsOffsets_15eaefa7f[curveIdx * 2]; 
ERROR: 74: int knotsCnt = ocio_grading_rgbcurve_knotsOffsets_15eaefa7f[curveIdx * 2 + 1]; 
ERROR: 75: int coefsOffs = ocio_grading_rgbcurve_coefsOffsets_15eaefa7f[curveIdx * 2]; 
ERROR: 76: int coefsCnt = ocio_grading_rgbcurve_coefsOffsets_15eaefa7f[curveIdx * 2 + 1]; 
ERROR: 77: int coefsSets = coefsCnt / 3; 
ERROR: 78: if (coefsSets == 0) 
ERROR: 79: { 
ERROR: 80: return x; 
ERROR: 81: } 
ERROR: 82: float knStart = ocio_grading_rgbcurve_knots_15eaefa7f[knotsOffs]; 
ERROR: 83: float knEnd = ocio_grading_rgbcurve_knots_15eaefa7f[knotsOffs + knotsCnt - 1]; 
ERROR: 84: float knStartY = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets * 2]; 
ERROR: 85: float knEndY; 
ERROR: 86: { 
ERROR: 87: float A = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets - 1]; 
ERROR: 88: float B = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets * 2 - 1]; 
ERROR: 89: float C = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets * 3 - 1]; 
ERROR: 90: float kn = ocio_grading_rgbcurve_knots_15eaefa7f[knotsOffs + knotsCnt - 2]; 
ERROR: 91: float t = knEnd - kn; 
ERROR: 92: knEndY = ( A * t + B ) * t + C; 
ERROR: 93: } 
ERROR: 94: if (x ERROR: 95: { 
ERROR: 96: float B = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets]; 
ERROR: 97: float C = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets * 2]; 
ERROR: 98: return abs(B) ERROR: 99: } 
ERROR: 100: else if (x >= knEndY) 
ERROR: 101: { 
ERROR: 102: float A = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets - 1]; 
ERROR: 103: float B = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets * 2 - 1]; 
ERROR: 104: float C = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets * 3 - 1]; 
ERROR: 105: float kn = ocio_grading_rgbcurve_knots_15eaefa7f[knotsOffs + knotsCnt - 2]; 
ERROR: 106: float t = knEnd - kn; 
ERROR: 107: float slope = 2. * A * t + B; 
ERROR: 108: float offs = ( A * t + B ) * t + C; 
ERROR: 109: return abs(slope) ERROR: 110: } 
ERROR: 111: int i = 0; 
ERROR: 112: for (i = 0; i ERROR: 113: { 
ERROR: 114: if (x ERROR: 115: { 
ERROR: 116: break; 
ERROR: 117: } 
ERROR: 118: } 
ERROR: 119: float A = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + i]; 
ERROR: 120: float B = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets + i]; 
ERROR: 121: float C = ocio_grading_rgbcurve_coefs_15eaefa7f[coefsOffs + coefsSets * 2 + i]; 
ERROR: 122: float kn = ocio_grading_rgbcurve_knots_15eaefa7f[knotsOffs + i]; 
ERROR: 123: float C0 = C - x; 
ERROR: 124: float discrim = sqrt(B * B - 4. * A * C0); 
ERROR: 125: return kn + (-2. * C0) / (discrim + B); 
ERROR: 126: } 
ERROR: 127: 
ERROR: 128: 
ERROR: 129: 
ERROR: 130: vec4 OCIO_c_Output_ACES_1_0_SDR_Video_Rec_1886_Rec_709_2_ACEScg_sourceGroup000000_tolinPipeline_0_62236c128fa3023c5eaefa7f ( in vec4 inPixel) 
ERROR: 131: { 
ERROR: 132: vec4 outColor = inPixel; 
ERROR: 133: 
ERROR: 134: 
ERROR: 135: 
ERROR: 136: { 
ERROR: 137: outColor.rgb = max(vec3(0., 0., 0.), outColor.rgb); 
ERROR: 138: outColor.rgb = min(vec3(1., 1., 1.), outColor.rgb); 
ERROR: 139: } 
ERROR: 140: 
ERROR: 141: 
ERROR: 142: 
ERROR: 143: { 
ERROR: 144: vec4 gamma = vec4(2.3999999999999999, 2.3999999999999999, 2.3999999999999999, 1.); 
ERROR: 145: vec4 res = pow( max( vec4(0., 0., 0., 0.), outColor ), gamma ); 
ERROR: 146: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 147: outColor.a = res.w; 
ERROR: 148: } 
ERROR: 149: 
ERROR: 150: 
ERROR: 151: 
ERROR: 152: { 
ERROR: 153: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 154: vec4 tmp = res; 
ERROR: 155: res = mat4(0.6430371952570656, 0.05926979748114361, 0.0059599807205470666, 0., 0.31118556603888886, 0.9314336659025827, 0.063923874376552767, 0., 0.045777238703049693, 0.0092965366152725631, 0.93011614490189853, 0., 0., 0., 0., 1.) * tmp; 
ERROR: 156: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 157: outColor.a = res.w; 
ERROR: 158: } 
ERROR: 159: 
ERROR: 160: 
ERROR: 161: 
ERROR: 162: { 
ERROR: 163: float Y = max( 1e-10, 0.27222871678091454 * outColor.rgb.r + 0.67408176581114831 * outColor.rgb.g + 0.053689517407937051 * outColor.rgb.b ); 
ERROR: 164: float Ypow_over_Y = pow( Y, 0.019264102); 
ERROR: 165: outColor.rgb = outColor.rgb * Ypow_over_Y; 
ERROR: 166: } 
ERROR: 167: 
ERROR: 168: 
ERROR: 169: 
ERROR: 170: { 
ERROR: 171: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 172: res = vec4(47.9799995, 47.9799995, 47.9799995, 1.) * res; 
ERROR: 173: res = vec4(0.0199999996, 0.0199999996, 0.0199999996, -0.) + res; 
ERROR: 174: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 175: outColor.a = res.w; 
ERROR: 176: } 
ERROR: 177: 
ERROR: 178: 
ERROR: 179: 
ERROR: 180: { 
ERROR: 181: outColor.rgb = max( vec3(1.17549435e-38, 1.17549435e-38, 1.17549435e-38), outColor.rgb); 
ERROR: 182: outColor.rgb = log(outColor.rgb) * vec3(0.434294462, 0.434294462, 0.434294462); 
ERROR: 183: } 
ERROR: 184: 
ERROR: 185: 
ERROR: 186: 
ERROR: 187: { 
ERROR: 188: outColor.rgb.r = ocio_grading_rgbcurve_evalBSplineCurve_05eaefa7f(3, outColor.rgb.r); 
ERROR: 189: outColor.rgb.g = ocio_grading_rgbcurve_evalBSplineCurve_05eaefa7f(3, outColor.rgb.g); 
ERROR: 190: outColor.rgb.b = ocio_grading_rgbcurve_evalBSplineCurve_05eaefa7f(3, outColor.rgb.b); 
ERROR: 191: outColor.rgb.r = ocio_grading_rgbcurve_evalBSplineCurve_05eaefa7f(0, outColor.rgb.r); 
ERROR: 192: outColor.rgb.g = ocio_grading_rgbcurve_evalBSplineCurve_05eaefa7f(1, outColor.rgb.g); 
ERROR: 193: outColor.rgb.b = ocio_grading_rgbcurve_evalBSplineCurve_05eaefa7f(2, outColor.rgb.b); 
ERROR: 194: } 
ERROR: 195: 
ERROR: 196: 
ERROR: 197: 
ERROR: 198: { 
ERROR: 199: outColor.rgb.r = ocio_grading_rgbcurve_evalBSplineCurve_15eaefa7f(3, outColor.rgb.r); 
ERROR: 200: outColor.rgb.g = ocio_grading_rgbcurve_evalBSplineCurve_15eaefa7f(3, outColor.rgb.g); 
ERROR: 201: outColor.rgb.b = ocio_grading_rgbcurve_evalBSplineCurve_15eaefa7f(3, outColor.rgb.b); 
ERROR: 202: outColor.rgb.r = ocio_grading_rgbcurve_evalBSplineCurve_15eaefa7f(0, outColor.rgb.r); 
ERROR: 203: outColor.rgb.g = ocio_grading_rgbcurve_evalBSplineCurve_15eaefa7f(1, outColor.rgb.g); 
ERROR: 204: outColor.rgb.b = ocio_grading_rgbcurve_evalBSplineCurve_15eaefa7f(2, outColor.rgb.b); 
ERROR: 205: } 
ERROR: 206: 
ERROR: 207: 
ERROR: 208: 
ERROR: 209: { 
ERROR: 210: outColor.rgb = pow( vec3(10., 10., 10.), outColor.rgb); 
ERROR: 211: } 
ERROR: 212: 
ERROR: 213: 
ERROR: 214: 
ERROR: 215: { 
ERROR: 216: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 217: vec4 tmp = res; 
ERROR: 218: res = mat4(1.0303238034676969, -0.011342863198969676, -0.011342863198969676, 0., -0.028086740241694757, 1.0135799264249721, -0.028086740241694753, 0., -0.0022370632250022365, -0.002237063225002237, 1.0394296034416644, 0., 0., 0., 0., 1.) * tmp; 
ERROR: 219: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 220: outColor.a = res.w; 
ERROR: 221: } 
ERROR: 222: 
ERROR: 223: 
ERROR: 224: 
ERROR: 225: { 
ERROR: 226: outColor.rgb = max(vec3(0., 0., 0.), outColor.rgb); 
ERROR: 227: } 
ERROR: 228: 
ERROR: 229: 
ERROR: 230: 
ERROR: 231: { 
ERROR: 232: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 233: vec4 tmp = res; 
ERROR: 234: res = mat4(0.69545224135745176, 0.044794563372037632, -0.0055258825581135443, 0., 0.14067869647029416, 0.85967111845642163, 0.0040252103059786586, 0., 0.16386906217225403, 0.095534318171540358, 1.0015006722521349, 0., 0., 0., 0., 1.) * tmp; 
ERROR: 235: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 236: outColor.a = res.w; 
ERROR: 237: } 
ERROR: 238: 
ERROR: 239: 
ERROR: 240: 
ERROR: 241: { 
ERROR: 242: outColor.rgb = max(vec3(0., 0., 0.), outColor.rgb); 
ERROR: 243: } 
ERROR: 244: 
ERROR: 245: 
ERROR: 246: 
ERROR: 247: { 
ERROR: 248: float a = 2.0 * outColor.rgb.r - (outColor.rgb.g + outColor.rgb.b); 
ERROR: 249: float b = 1.7320508075688772 * (outColor.rgb.g - outColor.rgb.b); 
ERROR: 250: float hue = atan(b, a); 
ERROR: 251: float knot_coord = clamp(2. + hue * float(1.6976527), 0., 4.); 
ERROR: 252: int j = int(min(knot_coord, 3.)); 
ERROR: 253: float t = knot_coord - float(j); 
ERROR: 254: vec4 monomials = vec4(t*t*t, t*t, t, 1.); 
ERROR: 255: vec4 m0 = vec4(0.25, 0., 0., 0.); 
ERROR: 256: vec4 m1 = vec4(-0.75, 0.75, 0.75, 0.25); 
ERROR: 257: vec4 m2 = vec4(0.75, -1.5, 0., 1.); 
ERROR: 258: vec4 m3 = vec4(-0.25, 0.75, -0.75, 0.25); 
ERROR: 259: vec4 coefs = mix(m0, m1, float(j == 1)); 
ERROR: 260: coefs = mix(coefs, m2, float(j == 2)); 
ERROR: 261: coefs = mix(coefs, m3, float(j == 3)); 
ERROR: 262: float f_H = dot(coefs, monomials); 
ERROR: 263: if (f_H > 0.) 
ERROR: 264: { 
ERROR: 265: float minval = min( outColor.rgb.g, outColor.rgb.b); 
ERROR: 266: float ka = f_H * 0.180000007 - 1.; 
ERROR: 267: float kb = outColor.rgb.r - f_H * (0.0299999993 + minval) * 0.180000007; 
ERROR: 268: float kc = f_H * 0.0299999993 * minval * 0.180000007; 
ERROR: 269: outColor.rgb.r = ( -kb - sqrt( kb * kb - 4. * ka * kc)) / ( 2. * ka); 
ERROR: 270: } 
ERROR: 271: } 
ERROR: 272: 
ERROR: 273: 
ERROR: 274: 
ERROR: 275: { 
ERROR: 276: float chroma = sqrt( outColor.rgb.b * (outColor.rgb.b - outColor.rgb.g) + outColor.rgb.g * (outColor.rgb.g - outColor.rgb.r) + outColor.rgb.r * (outColor.rgb.r - outColor.rgb.b) ); 
ERROR: 277: float YC = (outColor.rgb.b + outColor.rgb.g + outColor.rgb.r + 1.75 * chroma) / 3.; 
ERROR: 278: float maxval = max( outColor.rgb.r, max( outColor.rgb.g, outColor.rgb.b)); 
ERROR: 279: float minval = min( outColor.rgb.r, min( outColor.rgb.g, outColor.rgb.b)); 
ERROR: 280: float sat = ( max(1e-10, maxval) - max(1e-10, minval) ) / max(1e-2, maxval); 
ERROR: 281: float x = (sat - 0.4) * 5.; 
ERROR: 282: float t = max( 0., 1. - 0.5 * abs(x)); 
ERROR: 283: float s = 0.5 * (1. + sign(x) * (1. - t * t)); 
ERROR: 284: float GlowGain = 0.0500000007 * s; 
ERROR: 285: float GlowMid = 0.0799999982; 
ERROR: 286: float glowGainOut = mix(-GlowGain / (1. + GlowGain), GlowGain * (GlowMid / YC - 0.5) / (GlowGain * 0.5 - 1.), float( YC > (1. + GlowGain) * GlowMid * 2. / 3. )); 
ERROR: 287: glowGainOut = mix(glowGainOut, 0., float( YC > GlowMid * 2. )); 
ERROR: 288: outColor.rgb = outColor.rgb * glowGainOut + outColor.rgb; 
ERROR: 289: } 
ERROR: 290: 
ERROR: 291: 
ERROR: 292: 
ERROR: 293: { 
ERROR: 294: vec4 res = vec4(outColor.rgb.r, outColor.rgb.g, outColor.rgb.b, outColor.a); 
ERROR: 295: vec4 tmp = res; 
ERROR: 296: res = mat4(1.4514393161456651, -0.076553773396020569, 0.008316148425697719, 0., -0.23651074689374021, 1.1762296998335731, -0.0060324497910210278, 0., -0.2149285692519253, -0.099675926437552229, 0.99771630136532341, 0., 0., 0., 0., 1.) * tmp; 
ERROR: 297: outColor.rgb = vec3(res.x, res.y, res.z); 
ERROR: 298: outColor.a = res.w; 
ERROR: 299: } 
ERROR: 300: 
ERROR: 301: return outColor; 
ERROR: 302: } 
ERROR: 303: 
ERROR: // 
ERROR: // FUNCTION: SourceBGRA 
ERROR: // 
ERROR: 1: 
ERROR: 2: 
ERROR: 3: 
ERROR: 4: 
ERROR: 5: 
ERROR: 6: 
ERROR: 7: 
ERROR: 8: 
ERROR: 9: 
ERROR: 10: 
ERROR: 11: 
ERROR: 12: 
ERROR: 13: 
ERROR: 14: 
ERROR: 15: 
ERROR: 16: 
ERROR: 17: 
ERROR: 18: 
ERROR: 19: 
ERROR: 20: 
ERROR: 21: vec4 SourceBGRA250d5436 (const in sampler2DRect RGBA_sampler, const in vec2 ST, const in vec2 offset, const in vec2 RGBA_samplerSize, const in float orientation) 
ERROR: 22: { 
ERROR: 23: vec2 t = ST + offset; 
ERROR: 24: if (t.x = RGBA_samplerSize.x || t.y >= RGBA_samplerSize.y) 
ERROR: 25: return vec4(0.0); 
ERROR: 26: 
ERROR: 27: if (orientation == 1.0) 
ERROR: 28: { 
ERROR: 29: t.y = RGBA_samplerSize.y - t.y; 
ERROR: 30: } 
ERROR: 31: else if (orientation == 2.0) 
ERROR: 32: { 
ERROR: 33: t.x = RGBA_samplerSize.x - t.x; 
ERROR: 34: } 
ERROR: 35: else if (orientation == 3.0) 
ERROR: 36: { 
ERROR: 37: t.x = RGBA_samplerSize.x - t.x; 
ERROR: 38: t.y = RGBA_samplerSize.y - t.y; 
ERROR: 39: } 
ERROR: 40: 
ERROR: 41: return texture(RGBA_sampler, t).bgra; 
ERROR: 42: } 
ERROR: 43: 
ERROR: 44: 
ERROR: // 
ERROR: // PROGRAM: 
ERROR: // 
ERROR: 1: uniform float orientation_1; 
ERROR: 2: uniform vec2 samplerSize_1; 
ERROR: 3: uniform sampler2DRect RGBA_sampler_1; 
ERROR: 4: in vec2 TexCoord0; 
ERROR: 5: out vec4 FragColor; 
ERROR: 6: vec4 OCIO_d_Rec_1886_Rec_709_Display_ACES_1_0_SDR_Video_displayGroup0_colorPipeline_0_a70bdbda61d952ca3d1ac249(in vec4); 
ERROR: 7: vec4 OCIO_c_Output_ACES_1_0_SDR_Video_Rec_1886_Rec_709_2_ACEScg_sourceGroup000000_tolinPipeline_0_62236c128fa3023c5eaefa7f(in vec4); 
ERROR: 8: vec4 SourceBGRA250d5436(const in sampler2DRect, const in vec2, const in vec2, const in vec2, const in float); 
ERROR: 9: 
ERROR: 10: vec4 ResizeDownSampleDerivativeb6a2019f_0(const in vec2); 
ERROR: 11: 
ERROR: 12: vec4 _samplerExpr1 (const in vec2 _offset) 
ERROR: 13: { 
ERROR: 14: return SourceBGRA250d5436(RGBA_sampler_1, TexCoord0.xy, _offset, samplerSize_1, orientation_1); 
ERROR: 15: } 
ERROR: 16: 
ERROR: 17: 
ERROR: 18: 
ERROR: 19: 
ERROR: 20: 
ERROR: 21: 
ERROR: 22: vec4 ResizeDownSampleDerivativeb6a2019f_0 (const in vec2 _offset) 
ERROR: 23: { 
ERROR: 24: 
ERROR: 25: vec2 absDer = fwidth( TexCoord0.st ); 
ERROR: 26: 
ERROR: 27: 
ERROR: 28: float maxAbsDer = max( absDer.x, absDer.y ); 
ERROR: 29: 
ERROR: 30: 
ERROR: 31: 
ERROR: 32: 
ERROR: 33: int KERNEL_SIZE = int( maxAbsDer / 2.0 ); 
ERROR: 34: 
ERROR: 35: 
ERROR: 36: 
ERROR: 37: 
ERROR: 38: 
ERROR: 39: 
ERROR: 40: 
ERROR: 41: 
ERROR: 42: 
ERROR: 43: 
ERROR: 44: 
ERROR: 45: 
ERROR: 46: 
ERROR: 47: 
ERROR: 48: 
ERROR: 49: 
ERROR: 50: 
ERROR: 51: 
ERROR: 52: 
ERROR: 53: 
ERROR: 54: 
ERROR: 55: 
ERROR: 56: if ( KERNEL_SIZE ERROR: 57: { 
ERROR: 58: KERNEL_SIZE = 0; 
ERROR: 59: } 
ERROR: 60: else if ( KERNEL_SIZE > 16 ) 
ERROR: 61: { 
ERROR: 62: KERNEL_SIZE = 16; 
ERROR: 63: } 
ERROR: 64: 
ERROR: 65: 
ERROR: 66: vec4 averageColor=vec4(0.0,0.0,0.0,0.0); 
ERROR: 67: for ( int x = -KERNEL_SIZE ; x ERROR: 68: { 
ERROR: 69: for ( int y = -KERNEL_SIZE ; y ERROR: 70: { 
ERROR: 71: averageColor+= _samplerExpr1(_offset + vec2 ( x , y ) ); 
ERROR: 72: } 
ERROR: 73: } 
ERROR: 74: 
ERROR: 75: 
ERROR: 76: float nbSamples = float( ( KERNEL_SIZE * 2 + 1 )* ( KERNEL_SIZE * 2 + 1 ) ); 
ERROR: 77: averageColor /= vec4(nbSamples); 
ERROR: 78: 
ERROR: 79: return averageColor; 
ERROR: 80: } 
ERROR: 81: 
ERROR: 82: 
ERROR: 83: void main () 
ERROR: 84: { 
ERROR: 85: FragColor = OCIO_d_Rec_1886_Rec_709_Display_ACES_1_0_SDR_Video_displayGroup0_colorPipeline_0_a70bdbda61d952ca3d1ac249(OCIO_c_Output_ACES_1_0_SDR_Video_Rec_1886_Rec_709_2_ACEScg_sourceGroup000000_tolinPipeline_0_62236c128fa3023c5eaefa7f(ResizeDownSampleDerivativeb6a2019f_0(vec2(0.0, 0.0)))); 
ERROR: 86: } 
ERROR: 87: 
ERROR: compiling program: 
ERROR: with functions: ResizeDownSampleDerivative OCIO_d_Rec_1886_Rec_709_Display_ACES_1_0_SDR_Video_displayGroup0_colorPipeline_0_a70bdbda61d952ca OCIO_c_Output_ACES_1_0_SDR_Video_Rec_1886_Rec_709_2_ACEScg_sourceGroup000000_tolinPipeline_0_62236c128fa3023c SourceBGRA 
ERROR: Fragment info 
ERROR: ------------- 
ERROR: 0(32) : error C1068: array index out of bounds 
ERROR: 0(32) : error C1068: array index out of bounds 
ERROR: 0(33) : error C1068: array index out of bounds 
ERROR: 0(33) : error C1068: array index out of bounds 
ERROR: 0(33) : error C1068: array index out of bounds 
ERROR: 0(35) : error C1068: array index out of bounds 
ERROR: 0(39) : error C1068: array index out of bounds 
ERROR: 0(39) : error C1068: array index out of bounds 
ERROR: 0(39) : error C1068: array index out of bounds 
ERROR: 0(39) : error C1068: array index out of bounds 
ERROR: 0(39) : error C1068: array index out of bounds 
ERROR: 0(47) : error C1068: array index out of bounds 
ERROR: 0(47) : error C1068: array index out of bounds 
ERROR: 0(48) : error C1068: array index out of bounds 
ERROR: 0(48) : error C1068: array index out of bounds 
ERROR: 0(49) : error C1068: array index out of bounds 
ERROR: 0(49) : error C1068: array index out of bounds 
ERROR: 0(49) : error C1068: array index out of bounds 
ERROR: 0(50) : error C1068: array index out of bounds 
ERROR: 0(50) : error C1068: array index out of bounds 
ERROR: 0(94) : error C1068: array index out of bounds 
ERROR: 0(94) : error C1068: array index out of bounds 
ERROR: 0(95) : error C1068: array index out of bounds 
ERROR: 0(95) : error C1068: array index out of bounds 
ERROR: 0(95) : error C1068: array index out of bounds 
ERROR: 0(97) : error C1068: array index out of bounds 
ERROR: 0(101) : error C1068: array index out of bounds 
ERROR: 0(101) : error C1068: array index out of bounds 
ERROR: 0(101) : error C1068: array index out of bounds 
ERROR: 0(101) : error C1068: array index out of bounds 
ERROR: 0(101) : error C1068: array index out of bounds 
ERROR: 0(109) : error C1068: array index out of bounds 
ERROR: 0(109) : error C1068: array index out of bounds 
ERROR: 0(110) : error C1068: array index out of bounds 
ERROR: 0(110) : error C1068: array index out of bounds 
ERROR: 0(111) : error C1068: array index out of bounds 
ERROR: 0(111) : error C1068: array index out of bounds 
ERROR: 0(111) : error C1068: array index out of bounds 
ERROR: 0(112) : error C1068: array index out of bounds 
ERROR: 0(112) : error C1068: array index out of bounds 
ERROR: failed to compile/select GL program: ERROR: failed to select the GL program

Environment variables

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Extra information

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Code of Conduct

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