#include "stdfx.h"
#include "tfxparam.h"
#include "tpixelutils.h"
#include "tparamset.h"
#include "ttonecurveparam.h"
#include "tcurves.h"
//===================================================================
namespace {
int getCubicYfromX(TCubic c, int x, double &s0, double &s1) {
double s = (s1 + s0) * 0.5;
TPointD p = c.getPoint(s);
if (areAlmostEqual(double(x), p.x, 0.001)) return tround(p.y);
if (x < p.x)
return getCubicYfromX(c, x, s0, s);
else
return getCubicYfromX(c, x, s, s1);
}
int getLinearYfromX(TSegment t, int x, double &s0, double &s1) {
double s = (s1 + s0) * 0.5;
TPointD p = t.getPoint(s);
if (areAlmostEqual(double(x), p.x, 0.001)) return tround(p.y);
if (x < p.x)
return getLinearYfromX(t, x, s0, s);
else
return getLinearYfromX(t, x, s, s1);
}
template <typename PIXEL, typename T>
void fill_lut(QList<TPointD> points, std::vector<T> &lut, bool isLinear) {
int i;
TPointD p0 = points.at(0);
TCubic cubic;
TSegment segment;
double s0 = 0.0;
for (i = 1; i < points.size(); i++) {
TPointD p1 = points.at(i);
TPointD p2 = points.at(++i);
TPointD p3 = points.at(++i);
if (!isLinear) {
cubic.setP0(p0);
cubic.setP1(p1);
cubic.setP2(p2);
cubic.setP3(p3);
int x = (int)p0.x;
while (x < 0) x++;
while (x < p3.x && x < PIXEL::maxChannelValue + 1) {
double s1 = 1.0;
int y = getCubicYfromX(cubic, x, s0, s1);
if (y > PIXEL::maxChannelValue + 1)
y = PIXEL::maxChannelValue;
else if (y < 0)
y = 0;
lut[x] = y;
x++;
}
} else {
segment.setP0(p0);
segment.setP1(p3);
int x = (int)p0.x;
while (x < 0) x++;
while (x < p3.x && x < PIXEL::maxChannelValue + 1) {
double s1 = 1.0;
int y = getLinearYfromX(segment, x, s0, s1);
if (y > PIXEL::maxChannelValue + 1)
y = PIXEL::maxChannelValue;
else if (y < 0)
y = 0;
lut[x] = y;
x++;
}
}
p0 = p3;
}
}
} // Namespace
//===================================================================
class ToneCurveFx : public TStandardRasterFx {
FX_PLUGIN_DECLARATION(ToneCurveFx)
TRasterFxPort m_input;
TToneCurveParamP m_toneCurve;
public:
ToneCurveFx() : m_toneCurve(new TToneCurveParam()) {
bindParam(this, "curve", m_toneCurve);
addInputPort("Source", m_input);
}
~ToneCurveFx(){};
bool canHandle(const TRenderSettings &info, double frame) override {
return true;
}
bool doGetBBox(double frame, TRectD &bBox,
const TRenderSettings &info) override {
if (m_input.isConnected())
return m_input->doGetBBox(frame, bBox, info);
else {
bBox = TRectD();
return false;
}
}
void doCompute(TTile &tile, double frame, const TRenderSettings &ri) override;
};
//-------------------------------------------------------------------
namespace {
void update_param(double ¶m, TRaster32P ras) { return; }
void update_param(double ¶m, TRaster64P ras) {
param = param * 257;
return;
}
QList<TPointD> getParamSetPoints(const TParamSet *paramSet, int frame) {
QList<TPointD> points;
int i;
for (i = 0; i < paramSet->getParamCount(); i++) {
TPointParamP pointParam = paramSet->getParam(i);
TPointD point = pointParam->getValue(frame);
int x = (int)point.x;
int y = (int)point.y;
points.push_back(TPointD(x, y));
}
return points;
}
}
//-------------------------------------------------------------------
template <typename PIXEL, typename CHANNEL_TYPE>
void doToneCurveFx(TRasterPT<PIXEL> ras, double frame,
const TToneCurveParam *toneCurveParam) {
QList<QList<TPointD>> pointsList;
int e;
for (e = 0; e < 6; e++) {
TParamSet *paramSet =
toneCurveParam->getParamSet(TToneCurveParam::ToneChannel(e))
.getPointer();
QList<TPointD> points = getParamSetPoints(paramSet, frame);
pointsList.push_back(points);
}
bool isLinear = toneCurveParam->isLinear();
int i, t;
for (i = 0; i < pointsList.size(); i++) {
QList<TPointD> &points = pointsList[i];
for (t = 0; t < points.size(); t++) {
TPointD &p = points[t];
double &x = p.x;
double &y = p.y;
update_param(x, ras);
update_param(y, ras);
}
}
std::vector<CHANNEL_TYPE> rgbaLut(PIXEL::maxChannelValue + 1);
std::vector<CHANNEL_TYPE> rgbLut(PIXEL::maxChannelValue + 1);
std::vector<CHANNEL_TYPE> rLut(PIXEL::maxChannelValue + 1);
std::vector<CHANNEL_TYPE> gLut(PIXEL::maxChannelValue + 1);
std::vector<CHANNEL_TYPE> bLut(PIXEL::maxChannelValue + 1);
std::vector<CHANNEL_TYPE> aLut(PIXEL::maxChannelValue + 1);
fill_lut<PIXEL, CHANNEL_TYPE>(pointsList[0], rgbaLut, isLinear);
fill_lut<PIXEL, CHANNEL_TYPE>(pointsList[1], rgbLut, isLinear);
fill_lut<PIXEL, CHANNEL_TYPE>(pointsList[2], rLut, isLinear);
fill_lut<PIXEL, CHANNEL_TYPE>(pointsList[3], gLut, isLinear);
fill_lut<PIXEL, CHANNEL_TYPE>(pointsList[4], bLut, isLinear);
fill_lut<PIXEL, CHANNEL_TYPE>(pointsList[5], aLut, isLinear);
int lx = ras->getLx();
int ly = ras->getLy();
int j;
ras->lock();
for (j = 0; j < ly; j++) {
PIXEL *pix = ras->pixels(j);
PIXEL *endPix = pix + lx;
while (pix < endPix) {
if (pix->m != 0 && pix->m != PIXEL::maxChannelValue)
*pix = depremultiply(*pix);
pix->r = rLut[(int)(pix->r)];
pix->g = gLut[(int)(pix->g)];
pix->b = bLut[(int)(pix->b)];
pix->m = aLut[(int)(pix->m)];
pix->r = rgbLut[(int)(pix->r)];
pix->g = rgbLut[(int)(pix->g)];
pix->b = rgbLut[(int)(pix->b)];
pix->r = rgbaLut[(int)(pix->r)];
pix->g = rgbaLut[(int)(pix->g)];
pix->b = rgbaLut[(int)(pix->b)];
pix->m = rgbaLut[(int)(pix->m)];
if (pix->m != 0 && pix->m != PIXEL::maxChannelValue)
*pix = premultiply(*pix);
pix++;
}
}
ras->unlock();
}
//-------------------------------------------------------------------
void ToneCurveFx::doCompute(TTile &tile, double frame,
const TRenderSettings &ri) {
if (!m_input.isConnected()) return;
m_input->compute(tile, frame, ri);
TRaster32P raster32 = tile.getRaster();
if (raster32)
doToneCurveFx<TPixel32, UCHAR>(raster32, frame, m_toneCurve.getPointer());
else {
TRaster64P raster64 = tile.getRaster();
if (raster64)
doToneCurveFx<TPixel64, USHORT>(raster64, frame,
m_toneCurve.getPointer());
else
throw TException("Brightness&Contrast: unsupported Pixel Type");
}
}
FX_PLUGIN_IDENTIFIER(ToneCurveFx, "toneCurveFx");