liz/rawTherapee
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Cbdl before b&w, fix ciecam02 issue and clean the code a bit

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This commit is contained in:
heckflosse 2016-02-19 21:52:02 +01:00
parent c2c93faa35
commit a15fe1de3e
4 changed files with 104 additions and 166 deletions
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73
rtengine/dcrop.cc
View File

@ -714,71 +714,50 @@ void Crop::update (int todo)
if ((todo & (M_TRANSFORM)) && params.dirpyrequalizer.cbdlMethod == "bef" && params.dirpyrequalizer.enabled) {
if( (!params.colorappearance.enabled )) {
TMatrix wprof, wiprof;
wprof = iccStore->workingSpaceMatrix( params.icm.working );
wiprof = iccStore->workingSpaceInverseMatrix( params.icm.working );
double wip[3][3] = {
{wiprof[0][0], wiprof[0][1], wiprof[0][2]},
{wiprof[1][0], wiprof[1][1], wiprof[1][2]},
{wiprof[2][0], wiprof[2][1], wiprof[2][2]}
TMatrix wprof = iccStore->workingSpaceMatrix( params.icm.working );
const float wp[3][3] = {
{static_cast<float>(wprof[0][0]), static_cast<float>(wprof[0][1]), static_cast<float>(wprof[0][2])},
{static_cast<float>(wprof[1][0]), static_cast<float>(wprof[1][1]), static_cast<float>(wprof[1][2])},
{static_cast<float>(wprof[2][0]), static_cast<float>(wprof[2][1]), static_cast<float>(wprof[2][2])}
};
double wp[3][3] = {
{wprof[0][0], wprof[0][1], wprof[0][2]},
{wprof[1][0], wprof[1][1], wprof[1][2]},
{wprof[2][0], wprof[2][1], wprof[2][2]}
};
int W = baseCrop->getWidth();
int H = baseCrop->getHeight();
LabImage * labcbdl;
labcbdl = new LabImage(W, H);
#ifndef _DEBUG
#pragma omp parallel for schedule(dynamic, 10)
const int W = baseCrop->getWidth();
const int H = baseCrop->getHeight();
LabImage labcbdl(W, H);
#ifdef _OPENMP
#pragma omp parallel for schedule(dynamic,16)
#endif
//convert RGB => Lab
for(int i = 0; i < H; i++) {
for(int j = 0; j < W; j++) {
float r = baseCrop->r(i, j);
float g = baseCrop->g(i, j);
float b = baseCrop->b(i, j);
float X, Y, Z;
float L, aa, bb;
Color::rgbxyz(r, g, b, X, Y, Z, wp);
//convert Lab
Color::XYZ2Lab(X, Y, Z, L, aa, bb);
labcbdl->L[i][j] = L;
labcbdl->a[i][j] = aa;
labcbdl->b[i][j] = bb;
Color::rgbxyz(baseCrop->r(i, j), baseCrop->g(i, j), baseCrop->b(i, j), X, Y, Z, wp);
Color::XYZ2Lab(X, Y, Z, labcbdl.L[i][j], labcbdl.a[i][j], labcbdl.b[i][j]);
}
}
parent->ipf.dirpyrequalizer (labcbdl, skip, 0);
parent->ipf.dirpyrequalizer (&labcbdl, skip, 0);
TMatrix wiprof = iccStore->workingSpaceInverseMatrix( params.icm.working );
const float wip[3][3] = {
{static_cast<float>(wiprof[0][0]), static_cast<float>(wiprof[0][1]), static_cast<float>(wiprof[0][2])},
{static_cast<float>(wiprof[1][0]), static_cast<float>(wiprof[1][1]), static_cast<float>(wiprof[1][2])},
{static_cast<float>(wiprof[2][0]), static_cast<float>(wiprof[2][1]), static_cast<float>(wiprof[2][2])}
};
#ifndef _DEBUG
#pragma omp parallel for schedule(dynamic, 10)
#ifdef _OPENMP
#pragma omp parallel for schedule(dynamic,16)
#endif
//convert Lab => RGB
for(int i = 0; i < H; i++) {
for(int j = 0; j < W; j++) {
float L = labcbdl->L[i][j];
float a = labcbdl->a[i][j];
float b = labcbdl->b[i][j];
float x1, y1, z1;
float R, G, B;
Color::Lab2XYZ(L, a, b, x1, y1, z1);
Color::xyz2rgb(x1, y1, z1, R, G, B, wip);
baseCrop->r(i, j) = R;
baseCrop->g(i, j) = G;
baseCrop->b(i, j) = B;
float X, Y, Z;
Color::Lab2XYZ(labcbdl.L[i][j], labcbdl.a[i][j], labcbdl.b[i][j], X, Y, Z);
Color::xyz2rgb(X, Y, Z, baseCrop->r(i, j), baseCrop->g(i, j), baseCrop->b(i, j), wip);
}
}
delete labcbdl;
}
}
// blurmap for shadow & highlights

79
rtengine/improccoordinator.cc
View File

@ -388,76 +388,57 @@ void ImProcCoordinator::updatePreviewImage (int todo, Crop* cropCall)
ipf.transform (orig_prev, oprevi, 0, 0, 0, 0, pW, pH, fw, fh, imgsrc->getMetaData()->getFocalLen(),
imgsrc->getMetaData()->getFocalLen35mm(), imgsrc->getMetaData()->getFocusDist(), imgsrc->getRotateDegree(), false);
readyphase++;
progress ("Preparing shadow/highlight map...", 100 * readyphase / numofphases);
if ((todo & (M_TRANSFORM)) && params.dirpyrequalizer.cbdlMethod == "bef" && params.dirpyrequalizer.enabled) {
if(((!params.colorappearance.enabled))) {
TMatrix wprof, wiprof;
wprof = iccStore->workingSpaceMatrix( params.icm.working );
wiprof = iccStore->workingSpaceInverseMatrix( params.icm.working );
double wip[3][3] = {
{wiprof[0][0], wiprof[0][1], wiprof[0][2]},
{wiprof[1][0], wiprof[1][1], wiprof[1][2]},
{wiprof[2][0], wiprof[2][1], wiprof[2][2]}
TMatrix wprof = iccStore->workingSpaceMatrix( params.icm.working );
const float wp[3][3] = {
{static_cast<float>(wprof[0][0]), static_cast<float>(wprof[0][1]), static_cast<float>(wprof[0][2])},
{static_cast<float>(wprof[1][0]), static_cast<float>(wprof[1][1]), static_cast<float>(wprof[1][2])},
{static_cast<float>(wprof[2][0]), static_cast<float>(wprof[2][1]), static_cast<float>(wprof[2][2])}
};
double wp[3][3] = {
{wprof[0][0], wprof[0][1], wprof[0][2]},
{wprof[1][0], wprof[1][1], wprof[1][2]},
{wprof[2][0], wprof[2][1], wprof[2][2]}
};
int W = oprevi->getWidth();
int H = oprevi->getHeight();
LabImage * labcbdl;
labcbdl = new LabImage(W, H);
#ifndef _DEBUG
#pragma omp parallel for schedule(dynamic, 10)
const int W = oprevi->getWidth();
const int H = oprevi->getHeight();
LabImage labcbdl(W, H);
#ifdef _OPENMP
#pragma omp parallel for schedule(dynamic,16)
#endif
//convert RGB => Lab
for(int i = 0; i < H; i++) {
for(int j = 0; j < W; j++) {
float r = oprevi->r(i, j);
float g = oprevi->g(i, j);
float b = oprevi->b(i, j);
float X, Y, Z;
float L, aa, bb;
Color::rgbxyz(r, g, b, X, Y, Z, wp);
//convert Lab
Color::XYZ2Lab(X, Y, Z, L, aa, bb);
labcbdl->L[i][j] = L;
labcbdl->a[i][j] = aa;
labcbdl->b[i][j] = bb;
Color::rgbxyz(oprevi->r(i, j), oprevi->g(i, j), oprevi->b(i, j), X, Y, Z, wp);
Color::XYZ2Lab(X, Y, Z, labcbdl.L[i][j], labcbdl.a[i][j], labcbdl.b[i][j]);
}
}
ipf.dirpyrequalizer (labcbdl, scale, 0);
ipf.dirpyrequalizer (&labcbdl, scale, 0);
#ifndef _DEBUG
#pragma omp parallel for schedule(dynamic, 10)
TMatrix wiprof = iccStore->workingSpaceInverseMatrix( params.icm.working );
const float wip[3][3] = {
{static_cast<float>(wiprof[0][0]), static_cast<float>(wiprof[0][1]), static_cast<float>(wiprof[0][2])},
{static_cast<float>(wiprof[1][0]), static_cast<float>(wiprof[1][1]), static_cast<float>(wiprof[1][2])},
{static_cast<float>(wiprof[2][0]), static_cast<float>(wiprof[2][1]), static_cast<float>(wiprof[2][2])}
};
#ifdef _OPENMP
#pragma omp parallel for schedule(dynamic,16)
#endif
for(int i = 0; i < H; i++) {
for(int j = 0; j < W; j++) {
float L = labcbdl->L[i][j];
float a = labcbdl->a[i][j];
float b = labcbdl->b[i][j];
float x1, y1, z1;
float R, G, B;
Color::Lab2XYZ(L, a, b, x1, y1, z1);
Color::xyz2rgb(x1, y1, z1, R, G, B, wip);
oprevi->r(i, j) = R;
oprevi->g(i, j) = G;
oprevi->b(i, j) = B;
float X, Y, Z;
Color::Lab2XYZ(labcbdl.L[i][j], labcbdl.a[i][j], labcbdl.b[i][j], X, Y, Z);
Color::xyz2rgb(X, Y, Z, oprevi->r(i, j), oprevi->g(i, j), oprevi->b(i, j), wip);
}
}
}
delete labcbdl;
}
}
readyphase++;
progress ("Preparing shadow/highlight map...", 100 * readyphase / numofphases);
if ((todo & M_BLURMAP) && params.sh.enabled) {
double radius = sqrt (double(pW * pW + pH * pH)) / 2.0;

2
rtengine/improcfun.cc
View File

@ -6539,8 +6539,6 @@ void ImProcFunctions::badpixlab(LabImage* lab, double rad, int thr, int mode, fl
void ImProcFunctions::dirpyrequalizer (LabImage* lab, int scale, int mode)
{
printf("mode=%d\n", mode);
if (params->dirpyrequalizer.enabled && lab->W >= 8 && lab->H >= 8) {
float b_l = static_cast<float>(params->dirpyrequalizer.hueskin.value[0]) / 100.0f;
float t_l = static_cast<float>(params->dirpyrequalizer.hueskin.value[1]) / 100.0f;

70
rtengine/simpleprocess.cc
View File

@ -741,70 +741,50 @@ IImage16* processImage (ProcessingJob* pjob, int& errorCode, ProgressListener* p
if (params.dirpyrequalizer.cbdlMethod == "bef" && params.dirpyrequalizer.enabled) {
if(((!params.colorappearance.enabled))) {
TMatrix wprof, wiprof;
wprof = iccStore->workingSpaceMatrix( params.icm.working );
wiprof = iccStore->workingSpaceInverseMatrix( params.icm.working );
double wip[3][3] = {
{wiprof[0][0], wiprof[0][1], wiprof[0][2]},
{wiprof[1][0], wiprof[1][1], wiprof[1][2]},
{wiprof[2][0], wiprof[2][1], wiprof[2][2]}
TMatrix wprof = iccStore->workingSpaceMatrix( params.icm.working );
const float wp[3][3] = {
{static_cast<float>(wprof[0][0]), static_cast<float>(wprof[0][1]), static_cast<float>(wprof[0][2])},
{static_cast<float>(wprof[1][0]), static_cast<float>(wprof[1][1]), static_cast<float>(wprof[1][2])},
{static_cast<float>(wprof[2][0]), static_cast<float>(wprof[2][1]), static_cast<float>(wprof[2][2])}
};
double wp[3][3] = {
{wprof[0][0], wprof[0][1], wprof[0][2]},
{wprof[1][0], wprof[1][1], wprof[1][2]},
{wprof[2][0], wprof[2][1], wprof[2][2]}
};
const int W = baseImg->getWidth();
const int H = baseImg->getHeight();
LabImage labcbdl(W, H);
int W = baseImg->getWidth();
int H = baseImg->getHeight();
LabImage * labcbdl;
labcbdl = new LabImage(W, H);
#ifndef _DEBUG
#pragma omp parallel for schedule(dynamic, 10)
#ifdef _OPENMP
#pragma omp parallel for schedule(dynamic,16)
#endif
for(int i = 0; i < H; i++) {
for(int j = 0; j < W; j++) {
float r = baseImg->r(i, j);
float g = baseImg->g(i, j);
float b = baseImg->b(i, j);
float X, Y, Z;
float L, aa, bb;
Color::rgbxyz(r, g, b, X, Y, Z, wp);
Color::rgbxyz(baseImg->r(i, j), baseImg->g(i, j), baseImg->b(i, j), X, Y, Z, wp);
//convert Lab
Color::XYZ2Lab(X, Y, Z, L, aa, bb);
labcbdl->L[i][j] = L;
labcbdl->a[i][j] = aa;
labcbdl->b[i][j] = bb;
Color::XYZ2Lab(X, Y, Z, labcbdl.L[i][j], labcbdl.a[i][j], labcbdl.b[i][j]);
}
}
ipf.dirpyrequalizer (labcbdl, 1, 0);
ipf.dirpyrequalizer (&labcbdl, 1, 0);
#ifndef _DEBUG
#pragma omp parallel for schedule(dynamic, 10)
TMatrix wiprof = iccStore->workingSpaceInverseMatrix( params.icm.working );
const float wip[3][3] = {
{static_cast<float>(wiprof[0][0]), static_cast<float>(wiprof[0][1]), static_cast<float>(wiprof[0][2])},
{static_cast<float>(wiprof[1][0]), static_cast<float>(wiprof[1][1]), static_cast<float>(wiprof[1][2])},
{static_cast<float>(wiprof[2][0]), static_cast<float>(wiprof[2][1]), static_cast<float>(wiprof[2][2])}
};
#ifdef _OPENMP
#pragma omp parallel for schedule(dynamic,16)
#endif
for(int i = 0; i < H; i++) {
for(int j = 0; j < W; j++) {
float L = labcbdl->L[i][j];
float a = labcbdl->a[i][j];
float b = labcbdl->b[i][j];
float x1, y1, z1;
float R, G, B;
Color::Lab2XYZ(L, a, b, x1, y1, z1);
Color::xyz2rgb(x1, y1, z1, R, G, B, wip);
baseImg->r(i, j) = R;
baseImg->g(i, j) = G;
baseImg->b(i, j) = B;
float X, Y, Z;
Color::Lab2XYZ(labcbdl.L[i][j], labcbdl.a[i][j], labcbdl.b[i][j], X, Y, Z);
Color::xyz2rgb(X, Y, Z, baseImg->r(i, j), baseImg->g(i, j), baseImg->b(i, j), wip);
}
}
delete labcbdl;
}
}
// update blurmap