color-lcms: linearization of an arbitrary color profile

Graeme sketched a linearization method there:
https://lists.freedesktop.org/archives/wayland-devel/2019-March/040171.html
Sebastian prototyped there:
https://gitlab.freedesktop.org/wayland/wayland-protocols/-/merge_requests/14/commits

Thanks to Pekka for great simplifications in implementation, like the xyz_dot_prod()
Quote: "should help untangle lots of the multiplications and summations by saying
we are computing dot products, etc".

The approach was validated using matrix-shaper and cLUT type of profiles.
If profile is matrix-shaper type then an optimization is applied.
The extracted EOTF is inverted and concatenated with VCGT, if it is availible.
Introduce function cmlcms_reasonable_1D_points which would be shared between
linearization method and number of points in 1DLUT for the transform.
Co-authored-by: Pekka Paalanen <pekka.paalanen@collabora.com>
Co-authored-by: Sebastian Wick <sebastian@sebastianwick.net>
Signed-off-by: Vitaly Prosyak <vitaly.prosyak@amd.com>
dev
Vitaly Prosyak 3 years ago
parent 37e0d54cc9
commit c199aade3f
  1. 11
      libweston/color-lcms/color-lcms.h
  2. 224
      libweston/color-lcms/color-profile.c
  3. 11
      libweston/color-lcms/color-transform.c

@ -197,4 +197,15 @@ cmlcms_create_stock_profile(struct weston_color_manager_lcms *cm);
void void
cmlcms_color_profile_destroy(struct cmlcms_color_profile *cprof); cmlcms_color_profile_destroy(struct cmlcms_color_profile *cprof);
bool
retrieve_eotf_and_output_inv_eotf(cmsContext lcms_ctx,
cmsHPROFILE hProfile,
cmsToneCurve *output_eotf[3],
cmsToneCurve *output_inv_eotf_vcgt[3],
cmsToneCurve *vcgt[3],
unsigned int num_points);
unsigned int
cmlcms_reasonable_1D_points(void);
#endif /* WESTON_COLOR_LCMS_H */ #endif /* WESTON_COLOR_LCMS_H */

@ -36,6 +36,222 @@
#include "shared/helpers.h" #include "shared/helpers.h"
#include "shared/string-helpers.h" #include "shared/string-helpers.h"
struct xyz_arr_flt {
float v[3];
};
static double
xyz_dot_prod(const struct xyz_arr_flt a, const struct xyz_arr_flt b)
{
return (double)a.v[0] * b.v[0] +
(double)a.v[1] * b.v[1] +
(double)a.v[2] * b.v[2];
}
/**
* Graeme sketched a linearization method there:
* https://lists.freedesktop.org/archives/wayland-devel/2019-March/040171.html
*/
static bool
build_eotf_from_clut_profile(cmsContext lcms_ctx,
cmsHPROFILE profile,
cmsToneCurve *output_eotf[3],
int num_points)
{
int ch, point;
float *curve_array[3];
float *red = NULL;
cmsHPROFILE xyz_profile = NULL;
cmsHTRANSFORM transform_rgb_to_xyz = NULL;
bool ret = false;
const float div = num_points - 1;
red = malloc(sizeof(float) * num_points * 3);
if (!red)
goto release;
curve_array[0] = red;
curve_array[1] = red + num_points;
curve_array[2] = red + 2 * num_points;
xyz_profile = cmsCreateXYZProfile();
if (!xyz_profile)
goto release;
transform_rgb_to_xyz = cmsCreateTransform(profile, TYPE_RGB_FLT,
xyz_profile, TYPE_XYZ_FLT,
INTENT_ABSOLUTE_COLORIMETRIC,
0);
if (!transform_rgb_to_xyz)
goto release;
for (ch = 0; ch < 3; ch++) {
struct xyz_arr_flt prim_xyz_max;
struct xyz_arr_flt prim_xyz;
double xyz_square_magnitude;
float rgb[3] = { 0.0f, 0.0f, 0.0f };
rgb[ch] = 1.0f;
cmsDoTransform(transform_rgb_to_xyz, rgb, prim_xyz_max.v, 1);
/**
* Calculate xyz square of magnitude uses single channel 100% and
* others are zero.
*/
xyz_square_magnitude = xyz_dot_prod(prim_xyz_max, prim_xyz_max);
/**
* Build rgb tone curves
*/
for (point = 0; point < num_points; point++) {
rgb[ch] = (float)point / div;
cmsDoTransform(transform_rgb_to_xyz, rgb, prim_xyz.v, 1);
curve_array[ch][point] = xyz_dot_prod(prim_xyz,
prim_xyz_max) /
xyz_square_magnitude;
}
/**
* Create LCMS object of rgb tone curves and validate whether
* monotonic
*/
output_eotf[ch] = cmsBuildTabulatedToneCurveFloat(lcms_ctx,
num_points,
curve_array[ch]);
if (!output_eotf[ch])
goto release;
if (!cmsIsToneCurveMonotonic(output_eotf[ch])) {
/**
* It is interesting to see how this profile was created.
* We assume that such a curve could not be used for linearization
* of arbitrary profile.
*/
goto release;
}
}
ret = true;
release:
if (transform_rgb_to_xyz)
cmsDeleteTransform(transform_rgb_to_xyz);
if (xyz_profile)
cmsCloseProfile(xyz_profile);
free(red);
if (ret == false)
cmsFreeToneCurveTriple(output_eotf);
return ret;
}
/**
* Concatenation of two monotonic tone curves.
* LCMS API cmsJoinToneCurve does y = Y^-1(X(t)),
* but want to have y = Y^(X(t))
*/
static cmsToneCurve *
lcmsJoinToneCurve(cmsContext context_id, const cmsToneCurve *X,
const cmsToneCurve *Y, unsigned int resulting_points)
{
cmsToneCurve *out = NULL;
float t, x;
float *res = NULL;
unsigned int i;
res = zalloc(resulting_points * sizeof(float));
if (res == NULL)
goto error;
for (i = 0; i < resulting_points; i++) {
t = (float)i / (resulting_points - 1);
x = cmsEvalToneCurveFloat(X, t);
res[i] = cmsEvalToneCurveFloat(Y, x);
}
out = cmsBuildTabulatedToneCurveFloat(context_id, resulting_points, res);
error:
if (res != NULL)
free(res);
return out;
}
/**
* Extract EOTF from matrix-shaper and cLUT profiles,
* then invert and concatenate with 'vcgt' curve if it
* is available.
*/
bool
retrieve_eotf_and_output_inv_eotf(cmsContext lcms_ctx,
cmsHPROFILE hProfile,
cmsToneCurve *output_eotf[3],
cmsToneCurve *output_inv_eotf_vcgt[3],
cmsToneCurve *vcgt[3],
unsigned int num_points)
{
cmsToneCurve *curve = NULL;
const cmsToneCurve * const *vcgt_curves;
unsigned i;
cmsTagSignature tags[] = {
cmsSigRedTRCTag, cmsSigGreenTRCTag, cmsSigBlueTRCTag
};
if (cmsIsMatrixShaper(hProfile)) {
/**
* Optimization for matrix-shaper profile
* May have 1DLUT->3x3->3x3->1DLUT, 1DLUT->3x3->1DLUT
*/
for (i = 0 ; i < 3; i++) {
curve = cmsReadTag(hProfile, tags[i]);
if (!curve)
goto fail;
output_eotf[i] = cmsDupToneCurve(curve);
if (!output_eotf[i])
goto fail;
}
} else {
/**
* Linearization of cLUT profile may have 1DLUT->3DLUT->1DLUT,
* 1DLUT->3DLUT, 3DLUT
*/
if (!build_eotf_from_clut_profile(lcms_ctx, hProfile,
output_eotf, num_points))
goto fail;
}
/**
* If the caller looking for eotf only then return early.
* It could be used for input profile when identity case: EOTF + INV_EOTF
* in pipeline only.
*/
if (output_inv_eotf_vcgt == NULL)
return true;
for (i = 0; i < 3; i++) {
curve = cmsReverseToneCurve(output_eotf[i]);
if (!curve)
goto fail;
output_inv_eotf_vcgt[i] = curve;
}
vcgt_curves = cmsReadTag(hProfile, cmsSigVcgtTag);
if (vcgt_curves && vcgt_curves[0] && vcgt_curves[1] && vcgt_curves[2]) {
for (i = 0; i < 3; i++) {
curve = lcmsJoinToneCurve(lcms_ctx,
output_inv_eotf_vcgt[i],
vcgt_curves[i], num_points);
if (!curve)
goto fail;
cmsFreeToneCurve(output_inv_eotf_vcgt[i]);
output_inv_eotf_vcgt[i] = curve;
if (vcgt)
vcgt[i] = cmsDupToneCurve(vcgt_curves[i]);
}
}
return true;
fail:
cmsFreeToneCurveTriple(output_eotf);
cmsFreeToneCurveTriple(output_inv_eotf_vcgt);
return false;
}
/* FIXME: sync with spec! */ /* FIXME: sync with spec! */
static bool static bool
validate_icc_profile(cmsHPROFILE profile, char **errmsg) validate_icc_profile(cmsHPROFILE profile, char **errmsg)
@ -183,6 +399,14 @@ cmlcms_create_stock_profile(struct weston_color_manager_lcms *cm)
if (!cm->sRGB_profile) if (!cm->sRGB_profile)
goto err_close; goto err_close;
if (!retrieve_eotf_and_output_inv_eotf(cm->lcms_ctx,
cm->sRGB_profile->profile,
cm->sRGB_profile->output_eotf,
cm->sRGB_profile->output_inv_eotf_vcgt,
cm->sRGB_profile->vcgt,
cmlcms_reasonable_1D_points()))
goto err_close;
return true; return true;
err_close: err_close:

@ -39,6 +39,17 @@ struct tone_curve_def {
cmsFloat64Number params[5]; cmsFloat64Number params[5];
}; };
/**
* The method is used in linearization of an arbitrary color profile
* when EOTF is retrieved we want to know a generic way to decide the number
* of points
*/
unsigned int
cmlcms_reasonable_1D_points(void)
{
return 1024;
}
/* /*
* LCMS uses the required number of 'params' based on 'cmstype', the parametric * LCMS uses the required number of 'params' based on 'cmstype', the parametric
* tone curve number. LCMS honors negative 'cmstype' as inverse function. * tone curve number. LCMS honors negative 'cmstype' as inverse function.

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