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blender/intern/opencolorio/ocio_impl.cc
Sergey Sharybin cf8cddf07a Film response curves implemented as a looks 
This commit implement's OCIO's Looks idea which
is about applying some color correction on the
buffer before it get's affected by a display
transform.

This is mainly used to modify images in an
artistics way.

Currently we've got looks generated from film
response curves for all sorts of cameras.

Patch by both of me and Brecht.
2013-09-09 09:48:26 +00:00

615 lines
14 KiB
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/*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2012 Blender Foundation.
* All rights reserved.
*
* Contributor(s): Xavier Thomas
* Lukas Toene,
* Sergey Sharybin
*
* ***** END GPL LICENSE BLOCK *****
*/
#include <iostream>
#include <sstream>
#include <string.h>
#ifdef __APPLE__
#include <OpenGL/gl.h>
#include <OpenGL/glu.h>
#else
#include <GL/glew.h>
#endif
#include <OpenColorIO/OpenColorIO.h>
using namespace OCIO_NAMESPACE;
#include "MEM_guardedalloc.h"
#include "ocio_impl.h"
#if !defined(WITH_ASSERT_ABORT)
# define OCIO_abort()
#else
# include <stdlib.h>
# define OCIO_abort() abort()
#endif
#if defined(_MSC_VER)
# define __func__ __FUNCTION__
#endif
#define MEM_NEW(type) new(MEM_mallocN(sizeof(type), __func__)) type()
#define MEM_DELETE(what, type) if (what) { ((type*)(what))->~type(); MEM_freeN(what); } (void)0
static void OCIO_reportError(const char *err)
{
std::cerr << "OpenColorIO Error: " << err << std::endl;
OCIO_abort();
}
static void OCIO_reportException(Exception &exception)
{
OCIO_reportError(exception.what());
}
OCIO_ConstConfigRcPtr *OCIOImpl::getCurrentConfig(void)
{
ConstConfigRcPtr *config = MEM_NEW(ConstConfigRcPtr);
try {
*config = GetCurrentConfig();
if (*config)
return (OCIO_ConstConfigRcPtr *) config;
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
MEM_DELETE(config, ConstConfigRcPtr);
return NULL;
}
void OCIOImpl::setCurrentConfig(const OCIO_ConstConfigRcPtr *config)
{
try {
SetCurrentConfig(*(ConstConfigRcPtr *) config);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
}
OCIO_ConstConfigRcPtr *OCIOImpl::configCreateFromEnv(void)
{
ConstConfigRcPtr *config = MEM_NEW(ConstConfigRcPtr);
try {
*config = Config::CreateFromEnv();
if (*config)
return (OCIO_ConstConfigRcPtr *) config;
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
MEM_DELETE(config, ConstConfigRcPtr);
return NULL;
}
OCIO_ConstConfigRcPtr *OCIOImpl::configCreateFromFile(const char *filename)
{
ConstConfigRcPtr *config = MEM_NEW(ConstConfigRcPtr);
try {
*config = Config::CreateFromFile(filename);
if (*config)
return (OCIO_ConstConfigRcPtr *) config;
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
MEM_DELETE(config, ConstConfigRcPtr);
return NULL;
}
void OCIOImpl::configRelease(OCIO_ConstConfigRcPtr *config)
{
MEM_DELETE((ConstConfigRcPtr *) config, ConstConfigRcPtr);
}
int OCIOImpl::configGetNumColorSpaces(OCIO_ConstConfigRcPtr *config)
{
try {
return (*(ConstConfigRcPtr *) config)->getNumColorSpaces();
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return 0;
}
const char *OCIOImpl::configGetColorSpaceNameByIndex(OCIO_ConstConfigRcPtr *config, int index)
{
try {
return (*(ConstConfigRcPtr *) config)->getColorSpaceNameByIndex(index);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return NULL;
}
OCIO_ConstColorSpaceRcPtr *OCIOImpl::configGetColorSpace(OCIO_ConstConfigRcPtr *config, const char *name)
{
ConstColorSpaceRcPtr *cs = MEM_NEW(ConstColorSpaceRcPtr);
try {
*cs = (*(ConstConfigRcPtr *) config)->getColorSpace(name);
if (*cs)
return (OCIO_ConstColorSpaceRcPtr *) cs;
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
MEM_DELETE(cs, ConstColorSpaceRcPtr);
return NULL;
}
int OCIOImpl::configGetIndexForColorSpace(OCIO_ConstConfigRcPtr *config, const char *name)
{
try {
return (*(ConstConfigRcPtr *) config)->getIndexForColorSpace(name);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return -1;
}
const char *OCIOImpl::configGetDefaultDisplay(OCIO_ConstConfigRcPtr *config)
{
try {
return (*(ConstConfigRcPtr *) config)->getDefaultDisplay();
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return NULL;
}
int OCIOImpl::configGetNumDisplays(OCIO_ConstConfigRcPtr* config)
{
try {
return (*(ConstConfigRcPtr *) config)->getNumDisplays();
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return 0;
}
const char *OCIOImpl::configGetDisplay(OCIO_ConstConfigRcPtr *config, int index)
{
try {
return (*(ConstConfigRcPtr *) config)->getDisplay(index);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return NULL;
}
const char *OCIOImpl::configGetDefaultView(OCIO_ConstConfigRcPtr *config, const char *display)
{
try {
return (*(ConstConfigRcPtr *) config)->getDefaultView(display);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return NULL;
}
int OCIOImpl::configGetNumViews(OCIO_ConstConfigRcPtr *config, const char *display)
{
try {
return (*(ConstConfigRcPtr *) config)->getNumViews(display);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return 0;
}
const char *OCIOImpl::configGetView(OCIO_ConstConfigRcPtr *config, const char *display, int index)
{
try {
return (*(ConstConfigRcPtr *) config)->getView(display, index);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return NULL;
}
const char *OCIOImpl::configGetDisplayColorSpaceName(OCIO_ConstConfigRcPtr *config, const char *display, const char *view)
{
try {
return (*(ConstConfigRcPtr *) config)->getDisplayColorSpaceName(display, view);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return NULL;
}
int OCIOImpl::configGetNumLooks(OCIO_ConstConfigRcPtr *config)
{
try {
return (*(ConstConfigRcPtr *) config)->getNumLooks();
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return 0;
}
const char *OCIOImpl::configGetLookNameByIndex(OCIO_ConstConfigRcPtr *config, int index)
{
try {
return (*(ConstConfigRcPtr *) config)->getLookNameByIndex(index);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return NULL;
}
OCIO_ConstLookRcPtr *OCIOImpl::configGetLook(OCIO_ConstConfigRcPtr *config, const char *name)
{
ConstLookRcPtr *look = MEM_NEW(ConstLookRcPtr);
try {
*look = (*(ConstConfigRcPtr *) config)->getLook(name);
if (*look)
return (OCIO_ConstLookRcPtr *) look;
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
MEM_DELETE(look, ConstLookRcPtr);
return NULL;
}
const char *OCIOImpl::lookGetProcessSpace(OCIO_ConstLookRcPtr *look)
{
return (*(ConstLookRcPtr *) look)->getProcessSpace();
}
void OCIOImpl::lookRelease(OCIO_ConstLookRcPtr *look)
{
MEM_DELETE((ConstLookRcPtr *) look, ConstLookRcPtr);
}
int OCIOImpl::colorSpaceIsInvertible(OCIO_ConstColorSpaceRcPtr *cs_)
{
ConstColorSpaceRcPtr *cs = (ConstColorSpaceRcPtr *) cs_;
const char *family = (*cs)->getFamily();
if (!strcmp(family, "rrt") || !strcmp(family, "display")) {
/* assume display and rrt transformations are not invertible
* in fact some of them could be, but it doesn't make much sense to allow use them as invertible
*/
return false;
}
if ((*cs)->isData()) {
/* data color spaces don't have transformation at all */
return true;
}
if ((*cs)->getTransform(COLORSPACE_DIR_TO_REFERENCE)) {
/* if there's defined transform to reference space, color space could be converted to scene linear */
return true;
}
return true;
}
int OCIOImpl::colorSpaceIsData(OCIO_ConstColorSpaceRcPtr *cs)
{
return (*(ConstColorSpaceRcPtr *) cs)->isData();
}
void OCIOImpl::colorSpaceRelease(OCIO_ConstColorSpaceRcPtr *cs)
{
MEM_DELETE((ConstColorSpaceRcPtr *) cs, ConstColorSpaceRcPtr);
}
OCIO_ConstProcessorRcPtr *OCIOImpl::configGetProcessorWithNames(OCIO_ConstConfigRcPtr *config, const char *srcName, const char *dstName)
{
ConstProcessorRcPtr *p = MEM_NEW(ConstProcessorRcPtr);
try {
*p = (*(ConstConfigRcPtr *) config)->getProcessor(srcName, dstName);
if (*p)
return (OCIO_ConstProcessorRcPtr *) p;
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
MEM_DELETE(p, ConstProcessorRcPtr);
return 0;
}
OCIO_ConstProcessorRcPtr *OCIOImpl::configGetProcessor(OCIO_ConstConfigRcPtr *config, OCIO_ConstTransformRcPtr *transform)
{
ConstProcessorRcPtr *p = MEM_NEW(ConstProcessorRcPtr);
try {
*p = (*(ConstConfigRcPtr *) config)->getProcessor(*(ConstTransformRcPtr *) transform);
if (*p)
return (OCIO_ConstProcessorRcPtr *) p;
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
MEM_DELETE(p, ConstProcessorRcPtr);
return NULL;
}
void OCIOImpl::processorApply(OCIO_ConstProcessorRcPtr *processor, OCIO_PackedImageDesc *img)
{
try {
(*(ConstProcessorRcPtr *) processor)->apply(*(PackedImageDesc *) img);
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
}
void OCIOImpl::processorApply_predivide(OCIO_ConstProcessorRcPtr *processor, OCIO_PackedImageDesc *img_)
{
try {
PackedImageDesc *img = (PackedImageDesc *) img_;
int channels = img->getNumChannels();
if (channels == 4) {
float *pixels = img->getData();
int width = img->getWidth();
int height = img->getHeight();
for (int y = 0; y < height; y++) {
for (int x = 0; x < width; x++) {
float *pixel = pixels + 4 * (y * width + x);
processorApplyRGBA_predivide(processor, pixel);
}
}
}
else {
(*(ConstProcessorRcPtr *) processor)->apply(*img);
}
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
}
void OCIOImpl::processorApplyRGB(OCIO_ConstProcessorRcPtr *processor, float *pixel)
{
(*(ConstProcessorRcPtr *) processor)->applyRGB(pixel);
}
void OCIOImpl::processorApplyRGBA(OCIO_ConstProcessorRcPtr *processor, float *pixel)
{
(*(ConstProcessorRcPtr *) processor)->applyRGBA(pixel);
}
void OCIOImpl::processorApplyRGBA_predivide(OCIO_ConstProcessorRcPtr *processor, float *pixel)
{
if (pixel[3] == 1.0f || pixel[3] == 0.0f) {
(*(ConstProcessorRcPtr *) processor)->applyRGBA(pixel);
}
else {
float alpha, inv_alpha;
alpha = pixel[3];
inv_alpha = 1.0f / alpha;
pixel[0] *= inv_alpha;
pixel[1] *= inv_alpha;
pixel[2] *= inv_alpha;
(*(ConstProcessorRcPtr *) processor)->applyRGBA(pixel);
pixel[0] *= alpha;
pixel[1] *= alpha;
pixel[2] *= alpha;
}
}
void OCIOImpl::processorRelease(OCIO_ConstProcessorRcPtr *p)
{
MEM_DELETE(p, ConstProcessorRcPtr);
}
const char *OCIOImpl::colorSpaceGetName(OCIO_ConstColorSpaceRcPtr *cs)
{
return (*(ConstColorSpaceRcPtr *) cs)->getName();
}
const char *OCIOImpl::colorSpaceGetDescription(OCIO_ConstColorSpaceRcPtr *cs)
{
return (*(ConstColorSpaceRcPtr *) cs)->getDescription();
}
const char *OCIOImpl::colorSpaceGetFamily(OCIO_ConstColorSpaceRcPtr *cs)
{
return (*(ConstColorSpaceRcPtr *)cs)->getFamily();
}
OCIO_DisplayTransformRcPtr *OCIOImpl::createDisplayTransform(void)
{
DisplayTransformRcPtr *dt = MEM_NEW(DisplayTransformRcPtr);
*dt = DisplayTransform::Create();
return (OCIO_DisplayTransformRcPtr *) dt;
}
void OCIOImpl::displayTransformSetInputColorSpaceName(OCIO_DisplayTransformRcPtr *dt, const char *name)
{
(*(DisplayTransformRcPtr *) dt)->setInputColorSpaceName(name);
}
void OCIOImpl::displayTransformSetDisplay(OCIO_DisplayTransformRcPtr *dt, const char *name)
{
(*(DisplayTransformRcPtr *) dt)->setDisplay(name);
}
void OCIOImpl::displayTransformSetView(OCIO_DisplayTransformRcPtr *dt, const char *name)
{
(*(DisplayTransformRcPtr *) dt)->setView(name);
}
void OCIOImpl::displayTransformSetDisplayCC(OCIO_DisplayTransformRcPtr *dt, OCIO_ConstTransformRcPtr *t)
{
(*(DisplayTransformRcPtr *) dt)->setDisplayCC(* (ConstTransformRcPtr *) t);
}
void OCIOImpl::displayTransformSetLinearCC(OCIO_DisplayTransformRcPtr *dt, OCIO_ConstTransformRcPtr *t)
{
(*(DisplayTransformRcPtr *) dt)->setLinearCC(*(ConstTransformRcPtr *) t);
}
void OCIOImpl::displayTransformSetLooksOverride(OCIO_DisplayTransformRcPtr *dt, const char *looks)
{
(*(DisplayTransformRcPtr *) dt)->setLooksOverride(looks);
}
void OCIOImpl::displayTransformSetLooksOverrideEnabled(OCIO_DisplayTransformRcPtr *dt, bool enabled)
{
(*(DisplayTransformRcPtr *) dt)->setLooksOverrideEnabled(enabled);
}
void OCIOImpl::displayTransformRelease(OCIO_DisplayTransformRcPtr *dt)
{
MEM_DELETE((DisplayTransformRcPtr *) dt, DisplayTransformRcPtr);
}
OCIO_PackedImageDesc *OCIOImpl::createOCIO_PackedImageDesc(float *data, long width, long height, long numChannels,
long chanStrideBytes, long xStrideBytes, long yStrideBytes)
{
try {
void *mem = MEM_mallocN(sizeof(PackedImageDesc), __func__);
PackedImageDesc *id = new(mem) PackedImageDesc(data, width, height, numChannels, chanStrideBytes, xStrideBytes, yStrideBytes);
return (OCIO_PackedImageDesc *) id;
}
catch (Exception &exception) {
OCIO_reportException(exception);
}
return NULL;
}
void OCIOImpl::OCIO_PackedImageDescRelease(OCIO_PackedImageDesc* id)
{
MEM_DELETE((PackedImageDesc *) id, PackedImageDesc);
}
OCIO_ExponentTransformRcPtr *OCIOImpl::createExponentTransform(void)
{
ExponentTransformRcPtr *et = MEM_NEW(ExponentTransformRcPtr);
*et = ExponentTransform::Create();
return (OCIO_ExponentTransformRcPtr *) et;
}
void OCIOImpl::exponentTransformSetValue(OCIO_ExponentTransformRcPtr *et, const float *exponent)
{
(*(ExponentTransformRcPtr *) et)->setValue(exponent);
}
void OCIOImpl::exponentTransformRelease(OCIO_ExponentTransformRcPtr *et)
{
MEM_DELETE((ExponentTransformRcPtr *) et, ExponentTransformRcPtr);
}
OCIO_MatrixTransformRcPtr *OCIOImpl::createMatrixTransform(void)
{
MatrixTransformRcPtr *mt = MEM_NEW(MatrixTransformRcPtr);
*mt = MatrixTransform::Create();
return (OCIO_MatrixTransformRcPtr *) mt;
}
void OCIOImpl::matrixTransformSetValue(OCIO_MatrixTransformRcPtr *mt, const float *m44, const float *offset4)
{
(*(MatrixTransformRcPtr *) mt)->setValue(m44, offset4);
}
void OCIOImpl::matrixTransformRelease(OCIO_MatrixTransformRcPtr *mt)
{
MEM_DELETE((MatrixTransformRcPtr *) mt, MatrixTransformRcPtr);
}
void OCIOImpl::matrixTransformScale(float *m44, float *offset4, const float *scale4f)
{
MatrixTransform::Scale(m44, offset4, scale4f);
}
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