#include "trop.h"
#include "tconvert.h"
//#include "trastercm.h"
#ifndef TNZCORE_LIGHT
#include "timagecache.h"
#include "ttile.h"
#include "trasterimage.h"
#include "ttoonzimage.h"
#endif
TString TRopException::getMessage() const { return ::to_wstring(message); }
namespace {
bool isOpaque32(TRaster32P &ras) {
ras->lock();
UCHAR *m0 = &(ras->pixels()->m);
if (0 < m0[0] && m0[0] < 255) return false;
int wrap4 = ras->getWrap() * 4;
int lx4 = ras->getLx() * 4;
const UCHAR cm = *m0;
int nrows = ras->getLy();
while (nrows-- > 0) {
UCHAR *m1 = m0 + lx4;
UCHAR *m = m0;
while (m < m1 && *m == cm) m += 4;
if (m < m1) break;
m0 += wrap4;
}
ras->unlock();
return (nrows <= 0);
// m_image->setOpaqueFlag(true);
}
} // namespace
bool TRop::isOpaque(TRasterP ras) {
TRaster32P ras32 = ras;
if (ras32)
return isOpaque32(ras32);
else if (TRasterGR8P(ras))
return true;
else
throw TRopException("isOpaque: unsupported pixel type");
}
#ifdef TNZ_MACHINE_CHANNEL_ORDER_MRGB
void TRop::swapRBChannels(const TRaster32P &r) {
int lx = r->getLx();
int y = r->getLy();
r->lock();
while (--y >= 0) {
TPixel32 *pix = r->pixels(y);
TPixel32 *endPix = pix + lx;
while (pix < endPix) {
std::swap(pix->r, pix->b);
++pix;
}
}
r->unlock();
}
#endif
TRaster32P TRop::copyAndSwapRBChannels(const TRaster32P &srcRaster) {
TRaster32P newRaster(srcRaster->getSize());
int lx = srcRaster->getLx();
int y = srcRaster->getLy();
srcRaster->lock();
newRaster->lock();
while (--y >= 0) {
TPixel32 *pix = srcRaster->pixels(y);
TPixel32 *newpix = newRaster->pixels(y);
TPixel32 *endPix = pix + lx;
while (pix < endPix) {
newpix->r = pix->b;
newpix->g = pix->g;
newpix->b = pix->r;
newpix->m = pix->m;
++pix;
++newpix;
}
}
srcRaster->unlock();
newRaster->unlock();
return newRaster;
}
void TRop::copy(TRasterP dst, const TRasterP &src) {
assert(!((TRasterCM32P)src) || (TRasterCM32P)dst);
if (dst->getPixelSize() == src->getPixelSize())
dst->copy(src);
else {
if (dst->getBounds() != src->getBounds()) {
TRect rect = dst->getBounds() * src->getBounds();
if (rect.isEmpty()) return;
TRop::convert(dst->extract(rect), src->extract(rect));
} else
TRop::convert(dst, src);
}
}
//-------------------------------------------------------------------
namespace {
template <class Q>
class Gamma_Lut {
public:
std::vector<Q> m_table;
Gamma_Lut(int insteps, int outsteps, double gamma) {
double inspace = (double)(insteps);
for (int i = 0; i <= insteps; i++)
m_table.push_back(
(Q)((outsteps) * (pow(i / inspace, 1.0 / gamma)) + 0.5));
}
};
template <class T, class Q>
void doGammaCorrect(TRasterPT<T> raster, double gamma) {
Gamma_Lut<Q> lut(T::maxChannelValue, T::maxChannelValue, gamma);
int j;
for (j = 0; j < raster->getLy(); j++) {
T *pix = raster->pixels(j);
T *endPix = pix + raster->getLx();
while (pix < endPix) {
pix->r = lut.m_table[pix->r];
pix->b = lut.m_table[pix->b];
pix->g = lut.m_table[pix->g];
/*if(pix->m != T::maxChannelValue)
{
pix->r= pix->r*pix->m/T::maxChannelValue;
pix->g= pix->g*pix->m/T::maxChannelValue;
pix->b= pix->b*pix->m/T::maxChannelValue;
}*/
pix++;
}
}
}
template <class T, class Q>
void doGammaCorrectRGBM(TRasterPT<T> raster, double gammar, double gammag,
double gammab, double gammam) {
Gamma_Lut<Q> lutr(T::maxChannelValue, T::maxChannelValue, gammar);
Gamma_Lut<Q> lutg(T::maxChannelValue, T::maxChannelValue, gammag);
Gamma_Lut<Q> lutb(T::maxChannelValue, T::maxChannelValue, gammab);
Gamma_Lut<Q> lutm(T::maxChannelValue, T::maxChannelValue, gammam);
int j;
for (j = 0; j < raster->getLy(); j++) {
T *pix = raster->pixels(j);
T *endPix = pix + raster->getLx();
while (pix < endPix) {
pix->r = lutr.m_table[pix->r];
pix->g = lutg.m_table[pix->g];
pix->b = lutb.m_table[pix->b];
pix->m = lutm.m_table[pix->m];
/*if(pix->m != T::maxChannelValue)
{
pix->r= pix->r*pix->m/T::maxChannelValue;
pix->g= pix->g*pix->m/T::maxChannelValue;
pix->b= pix->b*pix->m/T::maxChannelValue;
}*/
pix++;
}
}
}
}
//-------------------------------------------------------------------
void TRop::gammaCorrect(TRasterP raster, double gamma) {
if (gamma <= 0) gamma = 0.01;
raster->lock();
if ((TRaster32P)raster)
doGammaCorrect<TPixel32, UCHAR>(raster, gamma);
else if ((TRaster64P)raster)
doGammaCorrect<TPixel64, USHORT>(raster, gamma);
else {
raster->unlock();
throw TRopException("isOpaque: unsupported pixel type");
}
raster->unlock();
}
//-------------------------------------------------------------------
void TRop::gammaCorrectRGBM(TRasterP raster, double gammar, double gammag,
double gammab, double gammam) {
if (gammar <= 0) gammar = 0.01;
if (gammag <= 0) gammag = 0.01;
if (gammab <= 0) gammab = 0.01;
if (gammam <= 0) gammam = 0.01;
raster->lock();
if ((TRaster32P)raster)
doGammaCorrectRGBM<TPixel32, UCHAR>(raster, gammar, gammag, gammab, gammam);
else if ((TRaster64P)raster)
doGammaCorrectRGBM<TPixel64, USHORT>(raster, gammar, gammag, gammab,
gammam);
else {
raster->unlock();
throw TRopException("isOpaque: unsupported pixel type");
}
raster->unlock();
}
//-------------------------------------------------------------------
template <class T>
void doSetChannel(const TRasterPT<T> &rin, const TRasterPT<T> &rout,
UCHAR channel, bool greytones) {
int lx = rin->getLx();
int ly = rout->getLy();
int i, j;
for (i = 0; i < ly; i++) {
T *pixin = rin->pixels(i);
T *pixout = rout->pixels(i);
if (greytones || channel == TRop::MChan) {
switch (channel) {
case TRop::RChan:
for (j = 0; j < lx; j++, pixin++, pixout++)
pixout->r = pixout->g = pixout->b = pixout->m = pixin->r;
break;
case TRop::GChan:
for (j = 0; j < lx; j++, pixin++, pixout++)
pixout->r = pixout->g = pixout->b = pixout->m = pixin->g;
break;
case TRop::BChan:
for (j = 0; j < lx; j++, pixin++, pixout++)
pixout->r = pixout->g = pixout->b = pixout->m = pixin->b;
break;
case TRop::MChan:
for (j = 0; j < lx; j++, pixin++, pixout++)
pixout->r = pixout->g = pixout->b = pixout->m = pixin->m;
break;
default:
assert(false);
}
} else {
for (j = 0; j < lx; j++, pixin++, pixout++) {
pixout->r = channel & TRop::RChan ? pixin->r : 0;
pixout->b = channel & TRop::BChan ? pixin->b : 0;
pixout->g = channel & TRop::GChan ? pixin->g : 0;
}
}
}
}
//-------------------------------------------------------------------
void TRop::setChannel(const TRasterP &rin, TRasterP rout, UCHAR chan,
bool greytones) {
assert(rin->getSize() == rout->getSize());
rout->lock();
if ((TRaster32P)rin && (TRaster32P)rout)
doSetChannel<TPixel32>(rin, rout, chan, greytones);
else if ((TRaster64P)rin && (TRaster64P)rout)
doSetChannel<TPixel64>(rin, rout, chan, greytones);
else {
rout->unlock();
throw TRopException("setChannel: unsupported pixel type");
}
rout->unlock();
}
//-------------------------------------------------------------------
TRasterP TRop::shrink(TRasterP rin, int shrink) {
int pixelSize = rin->getPixelSize();
int lx = (rin->getLx() - 1) / shrink + 1;
int ly = (rin->getLy() - 1) / shrink + 1;
TRasterP rout;
if ((TRaster32P)rin)
rout = TRaster32P(lx, ly);
else if ((TRaster64P)rin)
rout = TRaster64P(lx, ly);
if ((TRasterCM32P)rin) rout = TRasterCM32P(lx, ly);
if ((TRasterGR8P)rin) rout = TRasterGR8P(lx, ly);
int i, j;
for (i = 0; i < ly; i++) {
UCHAR *bufin =
(UCHAR *)rin->getRawData() + (i * shrink) * rin->getWrap() * pixelSize;
UCHAR *bufout =
(UCHAR *)rout->getRawData() + i * rout->getWrap() * pixelSize;
for (j = 0; j < lx; j++) {
memcpy(bufout, bufin, pixelSize);
bufin += shrink * pixelSize;
bufout += pixelSize;
}
}
return rout;
}
//-------------------------------------------------------------------
template <class T>
void doMakeStereoRaster(const TRasterPT<T> &rleft, const TRasterPT<T> &rright) {
int lx = rleft->getLx();
int ly = rright->getLy();
for (int i = 0; i < ly; i++) {
T *pixl = rleft->pixels(i);
T *pixr = rright->pixels(i);
for (int j = 0; j < lx; j++, pixl++, pixr++) {
pixl->g = pixr->g;
pixl->b = pixr->b;
}
}
}
//---------------------------------------
void TRop::makeStereoRaster(const TRasterP &left, const TRasterP &right) {
assert(left->getSize() == right->getSize());
left->lock();
if ((TRaster32P)left && (TRaster32P)right)
doMakeStereoRaster<TPixel32>(left, right);
else if ((TRaster64P)left && (TRaster64P)right)
doMakeStereoRaster<TPixel64>(left, right);
else {
left->unlock();
throw TRopException("setChannel: unsupported pixel type");
}
left->unlock();
}
//-------------------------------------------------------------------
#ifndef TNZCORE_LIGHT
void TTile::addInCache(const TRasterP &raster) {
if (!raster) {
m_rasterId = "";
return;
}
TRasterP rin;
m_rasterId = TImageCache::instance()->getUniqueId();
if (raster->getParent()) {
rin = raster->getParent();
unsigned long offs =
(raster->getRawData() - raster->getParent()->getRawData()) /
raster->getPixelSize();
m_subRect =
TRect(TPoint(offs % raster->getWrap(), offs / raster->getWrap()),
raster->getSize());
} else {
m_subRect = raster->getBounds();
rin = raster;
}
if ((TRasterCM32P)rin)
TImageCache::instance()->add(m_rasterId,
TToonzImageP(rin, rin->getBounds()));
else if ((TRaster32P)rin || (TRaster64P)rin)
TImageCache::instance()->add(m_rasterId, TRasterImageP(rin));
else if ((TRasterGR8P)rin || (TRasterGR16P)rin)
TImageCache::instance()->add(m_rasterId, TRasterImageP(rin));
else
assert(false);
}
TTile::TTile(const TRasterP &raster) : m_pos(), m_subRect() {
addInCache(raster);
}
TTile::TTile(const TRasterP &raster, TPointD pos) : m_pos(pos), m_subRect() {
addInCache(raster);
}
void TTile::setRaster(const TRasterP &raster) {
if (m_rasterId != "") TImageCache::instance()->remove(m_rasterId);
m_subRect = TRect();
addInCache(raster);
}
TTile::~TTile() {
if (!m_rasterId.empty()) TImageCache::instance()->remove(m_rasterId);
}
#endif