tests: fix perceptual intent in cLUT ICC profiles
The ICC profiles created for tests here are supposed to produce the same results regardless of whether they are of the matrix-shaper or cLUT form, and whether the compositor uses a colorimetric or perceptual rendering intent. This is silly, but it fits our tests very well since we mostly want to ensure correct computations in matrix and cLUT code rather than meaningful results from different rendering intents. When trying to switch the compositor from colorimetric to perceptual rendering intent as required by the color-management protocol extension, all and only the cLUT based tests failed (color-icc-output test). The reason is that ICCv4 defines the perceptual PCS having a specific non-zero black point. It requires ICC profiles to convert device black to the PCS black and vice versa. However, matrix-shaper type ICC profiles have no way to provide a perceptual transformation to/from PCS separate from the colorimetric transformation. Hence, LittleCMS exempts ICCv4 matrix-shaper profiles from the ICCv4 perceptual PCS definition. Black point compensation (BPC) is always added by LittleCMS with the perceptual rendering intent. If an ICC profile claims to be ICC version 4, the perceptual transformation in it is assumed to adhere to the percptual PCS black point, which is non-zero. Hence, DToB0 and BToD0 tags need to respect that so that BPC works correctly. Before this patch, DToB0 and BToD0 transformations did not use the correct PCS black point, so when BPC got added, the color space conversion went wrong. This patch replicates the BPC algorithm that LittleCMS uses in order to respect the perceptual PCS definition. This will then cancel out with the BPC added by LittleCMS, producing the expected color space conversion. The problem arises only with cLUT ICC profiles because matrix-shaper profiles are exempt: the black points between source (always matrix-shaper sRGB profile for now) and destination color spaces match, and no BPC is added by LittleCMS. There is no way to ask LittleCMS to add its BPC on our will, so we need to copy that code from LittleCMS 2.16. Signed-off-by: Pekka Paalanen <pekka.paalanen@collabora.com>
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@ -1,7 +1,7 @@
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/*
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* Copyright 2021 Advanced Micro Devices, Inc.
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* Copyright 2022 Collabora, Ltd.
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* Copyright (c) 1998-2022 Marti Maria Saguer
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* Copyright (c) 1998-2023 Marti Maria Saguer
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*
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* Permission is hereby granted, free of charge, to any person obtaining
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* a copy of this software and associated documentation files (the
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@ -281,23 +281,98 @@ roundtrip_verification(cmsPipeline *DToB, cmsPipeline *BToD, float tolerance)
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assert(stat.two_norm.max < tolerance);
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}
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static const struct weston_vector ZEROS = {
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.f = { 0.0, 0.0, 0.0, 1.0 }
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};
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static const struct weston_vector PCS_BLACK = {
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.f = {
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cmsPERCEPTUAL_BLACK_X,
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cmsPERCEPTUAL_BLACK_Y,
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cmsPERCEPTUAL_BLACK_Z,
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1.0
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}
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};
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/* Whether BPC matrix applies never, after or before transformation */
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enum bpc_dir {
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BPC_DIR_NONE,
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BPC_DIR_DTOB,
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BPC_DIR_BTOD,
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};
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struct transform_sampler_context {
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cmsHTRANSFORM t;
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struct weston_matrix bpc;
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enum bpc_dir dir;
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};
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static cmsInt32Number
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transform_sampler(const float src[], float dst[], void *cargo)
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{
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const struct transform_sampler_context *tsc = cargo;
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struct weston_vector stmp = { .f = { src[0], src[1], src[2], 1.0 } };
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struct weston_vector dtmp = { .f = { 0.0, 0.0, 0.0, 1.0 } };
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cmsDoTransform(tsc->t, src, dst, 1);
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if (tsc->dir == BPC_DIR_BTOD)
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weston_matrix_transform(&tsc->bpc, &stmp);
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return 1;
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cmsDoTransform(tsc->t, stmp.f, dtmp.f, 1);
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if (tsc->dir == BPC_DIR_DTOB)
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weston_matrix_transform(&tsc->bpc, &dtmp);
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for (int i = 0; i < 3; i++)
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dst[i] = dtmp.f[i];
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return 1; /* Success. */
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}
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/*
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* Black point compensation, copied from LittleCMS 2.16, cmscnvrt.c
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* Adapted to Weston code base.
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*/
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static void
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ComputeBlackPointCompensation(struct weston_matrix *m,
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const struct weston_vector *src_bp,
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const struct weston_vector *dst_bp)
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{
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double ax, ay, az, bx, by, bz, tx, ty, tz;
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// Now we need to compute a matrix plus an offset m and of such of
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// [m]*bpin + off = bpout
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// [m]*D50 + off = D50
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//
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// This is a linear scaling in the form ax+b, where
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// a = (bpout - D50) / (bpin - D50)
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// b = - D50* (bpout - bpin) / (bpin - D50)
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tx = src_bp->f[0] - cmsD50_XYZ()->X;
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ty = src_bp->f[1] - cmsD50_XYZ()->Y;
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tz = src_bp->f[2] - cmsD50_XYZ()->Z;
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ax = (dst_bp->f[0] - cmsD50_XYZ()->X) / tx;
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ay = (dst_bp->f[1] - cmsD50_XYZ()->Y) / ty;
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az = (dst_bp->f[2] - cmsD50_XYZ()->Z) / tz;
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bx = - cmsD50_XYZ()-> X * (dst_bp->f[0] - src_bp->f[0]) / tx;
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by = - cmsD50_XYZ()-> Y * (dst_bp->f[1] - src_bp->f[1]) / ty;
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bz = - cmsD50_XYZ()-> Z * (dst_bp->f[2] - src_bp->f[2]) / tz;
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/*
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* [ax, 0, 0, bx ]
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* m = [ 0, ay, 0, by ]
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* [ 0, 0, az, bz ]
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* [ 0, 0, 0, 1 ]
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*/
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weston_matrix_init(m);
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weston_matrix_scale(m, ax, ay, az);
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weston_matrix_translate(m, bx, by, bz);
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}
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static cmsStage *
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create_cLUT_from_transform(cmsContext context_id, const cmsHTRANSFORM t,
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int dim_size)
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int dim_size,
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enum bpc_dir dir)
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{
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struct transform_sampler_context tsc;
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cmsStage *cLUT_stage;
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@ -305,6 +380,18 @@ create_cLUT_from_transform(cmsContext context_id, const cmsHTRANSFORM t,
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assert(dim_size);
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tsc.t = t;
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tsc.dir = dir;
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switch (tsc.dir) {
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case BPC_DIR_NONE:
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weston_matrix_init(&tsc.bpc);
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break;
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case BPC_DIR_DTOB:
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ComputeBlackPointCompensation(&tsc.bpc, &ZEROS, &PCS_BLACK);
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break;
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case BPC_DIR_BTOD:
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ComputeBlackPointCompensation(&tsc.bpc, &PCS_BLACK, &ZEROS);
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break;
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}
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cLUT_stage = cmsStageAllocCLutFloat(context_id, dim_size, 3, 3, NULL);
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cmsStageSampleCLutFloat(cLUT_stage, transform_sampler, &tsc, 0);
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@ -340,6 +427,7 @@ build_lcms_clut_profile_output(cmsContext context_id,
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enum transfer_fn eotf_fn = transfer_fn_invert(inv_eotf_fn);
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cmsHPROFILE hRGB;
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cmsPipeline *DToB0, *BToD0;
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cmsPipeline *DToB1, *BToD1;
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cmsStage *stage;
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cmsStage *stage_inv_eotf;
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cmsStage *stage_eotf;
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@ -392,39 +480,58 @@ build_lcms_clut_profile_output(cmsContext context_id,
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/*
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* Pipeline from PCS (optical) to device (electrical)
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*/
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BToD0 = cmsPipelineAlloc(context_id, 3, 3);
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/* Perceptual PCS black point is not zeros, so we need BPC */
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BToD0 = cmsPipelineAlloc(context_id, 3, 3);
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stage = create_cLUT_from_transform(context_id, pcs_to_linear_device,
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clut_dim_size);
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clut_dim_size, BPC_DIR_BTOD);
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cmsPipelineInsertStage(BToD0, cmsAT_END, stage);
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cmsPipelineInsertStage(BToD0, cmsAT_END, cmsStageDup(stage_inv_eotf));
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/* Media-relative colorimetric does not force BPC */
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BToD1 = cmsPipelineAlloc(context_id, 3, 3);
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stage = create_cLUT_from_transform(context_id, pcs_to_linear_device,
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clut_dim_size, BPC_DIR_NONE);
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cmsPipelineInsertStage(BToD1, cmsAT_END, stage);
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cmsPipelineInsertStage(BToD1, cmsAT_END, cmsStageDup(stage_inv_eotf));
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cmsWriteTag(hRGB, cmsSigBToD0Tag, BToD0);
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cmsLinkTag(hRGB, cmsSigBToD1Tag, cmsSigBToD0Tag);
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cmsWriteTag(hRGB, cmsSigBToD1Tag, BToD1);
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cmsLinkTag(hRGB, cmsSigBToD2Tag, cmsSigBToD0Tag);
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cmsLinkTag(hRGB, cmsSigBToD3Tag, cmsSigBToD0Tag);
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cmsLinkTag(hRGB, cmsSigBToD3Tag, cmsSigBToD1Tag);
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/*
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* Pipeline from device (electrical) to PCS (optical)
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*/
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DToB0 = cmsPipelineAlloc(context_id, 3, 3);
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/* Perceptual PCS black point is not zeros, so we need BPC */
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DToB0 = cmsPipelineAlloc(context_id, 3, 3);
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cmsPipelineInsertStage(DToB0, cmsAT_END, cmsStageDup(stage_eotf));
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stage = create_cLUT_from_transform(context_id, linear_device_to_pcs,
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clut_dim_size);
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clut_dim_size, BPC_DIR_DTOB);
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cmsPipelineInsertStage(DToB0, cmsAT_END, stage);
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/* Media-relative colorimetric does not force BPC */
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DToB1 = cmsPipelineAlloc(context_id, 3, 3);
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cmsPipelineInsertStage(DToB1, cmsAT_END, cmsStageDup(stage_eotf));
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stage = create_cLUT_from_transform(context_id, linear_device_to_pcs,
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clut_dim_size, BPC_DIR_NONE);
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cmsPipelineInsertStage(DToB1, cmsAT_END, stage);
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cmsWriteTag(hRGB, cmsSigDToB0Tag, DToB0);
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cmsLinkTag(hRGB, cmsSigDToB1Tag, cmsSigDToB0Tag);
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cmsWriteTag(hRGB, cmsSigDToB1Tag, DToB1);
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cmsLinkTag(hRGB, cmsSigDToB2Tag, cmsSigDToB0Tag);
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cmsLinkTag(hRGB, cmsSigDToB3Tag, cmsSigDToB0Tag);
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cmsLinkTag(hRGB, cmsSigDToB3Tag, cmsSigDToB1Tag);
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vcgt_tag_add_to_profile(context_id, hRGB, vcgt_exponents);
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roundtrip_verification(DToB0, BToD0, clut_roundtrip_tolerance);
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roundtrip_verification(DToB1, BToD1, clut_roundtrip_tolerance);
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cmsPipelineFree(BToD0);
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cmsPipelineFree(DToB0);
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cmsPipelineFree(BToD1);
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cmsPipelineFree(DToB1);
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cmsStageFree(stage_eotf);
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cmsStageFree(stage_inv_eotf);
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