#include "stdfx.h"
#include "tfxparam.h"
#include "tparamset.h"
#include "tparamuiconcept.h"
class SpinBlurFx final : public TStandardRasterFx {
FX_PLUGIN_DECLARATION(SpinBlurFx)
TRasterFxPort m_input;
TPointParamP m_point;
TDoubleParamP m_radius;
TDoubleParamP m_blur;
public:
SpinBlurFx() : m_point(TPointD(0.0, 0.0)), m_radius(0.0), m_blur(2.0) {
m_point->getX()->setMeasureName("fxLength");
m_point->getY()->setMeasureName("fxLength");
m_radius->setMeasureName("fxLength");
bindParam(this, "point", m_point);
bindParam(this, "radius", m_radius);
bindParam(this, "blur", m_blur);
addInputPort("Source", m_input);
m_radius->setValueRange(0, (std::numeric_limits<double>::max)());
m_blur->setValueRange(0, (std::numeric_limits<double>::max)());
}
~SpinBlurFx(){};
int getMaxBraid(const TRectD &bBox, double frame,
const TAffine &aff = TAffine()) {
double scale = sqrt(fabs(aff.det()));
TPointD point = aff * m_point->getValue(frame);
double radius = m_radius->getValue(frame) * scale;
double blur = 0.001 * m_blur->getValue(frame) / scale;
double intensity = blur * M_PI_180;
TPointD p1 = bBox.getP00() - point;
TPointD p2 = bBox.getP01() - point;
TPointD p3 = bBox.getP10() - point;
TPointD p4 = bBox.getP11() - point;
double d1 = p1.x * p1.x + p1.y * p1.y;
double d2 = p2.x * p2.x + p2.y * p2.y;
double d3 = p3.x * p3.x + p3.y * p3.y;
double d4 = p4.x * p4.x + p4.y * p4.y;
double maxD = std::max(std::max(std::max(d3, d4), d2), d1);
double dist = sqrt(maxD);
double blurangle;
if (dist > radius)
blurangle = intensity * ((dist - radius));
else
blurangle = 0;
if (blurangle > M_PI) blurangle = M_PI;
return tround(4 * blurangle * dist);
}
void enlarge(const TRectD &bbox, TRectD &requestedGeom,
const TRenderSettings &ri, double frame);
bool doGetBBox(double frame, TRectD &bBox,
const TRenderSettings &info) override {
if (m_input.isConnected()) {
m_input->doGetBBox(frame, bBox, info);
bBox = bBox.enlarge(getMaxBraid(bBox, frame));
return true;
} else {
bBox = TRectD();
return false;
}
}
void transform(double frame, int port, const TRectD &rectOnOutput,
const TRenderSettings &infoOnOutput, TRectD &rectOnInput,
TRenderSettings &infoOnInput) override;
void doCompute(TTile &tile, double frame, const TRenderSettings &) override;
int getMemoryRequirement(const TRectD &rect, double frame,
const TRenderSettings &info) override;
bool canHandle(const TRenderSettings &info, double frame) override {
if (info.m_isSwatch) return true;
return m_blur->getValue(frame) == 0 ? true
: isAlmostIsotropic(info.m_affine);
}
void getParamUIs(TParamUIConcept *&concepts, int &length) override {
concepts = new TParamUIConcept[length = 2];
concepts[0].m_type = TParamUIConcept::POINT;
concepts[0].m_label = "Center";
concepts[0].m_params.push_back(m_point);
concepts[1].m_type = TParamUIConcept::RADIUS;
concepts[1].m_label = "Radius";
concepts[1].m_params.push_back(m_radius);
concepts[1].m_params.push_back(m_point);
}
};
//------------------------------------------------------------------------------
template <typename PIXEL, typename CHANNEL_TYPE, int MAX_CHANNEL_VALUE>
void doSpinBlur(const TRasterPT<PIXEL> rout, const TRasterPT<PIXEL> rin,
double blur, double radius, TPointD point) {
int maxRange = 0;
int dx = (int)point.x;
int dy = (int)point.y;
int i, j;
int lx = rout->getLx();
int ly = rout->getLy();
int XMAX = rin->getLx() / 2 - dx;
int YMAX = rin->getLy() / 2 - dy;
PIXEL *src_buf, *dst_buf;
double CROP_VAL = (double)MAX_CHANNEL_VALUE;
CHANNEL_TYPE U_CROP_VAL = MAX_CHANNEL_VALUE;
double intensity = blur * M_PI_180;
int cx = lx / 2 + dx;
int cy = ly / 2 + dy;
int XMIN = -cx;
int YMIN = -cy;
rin->lock();
rout->lock();
for (i = 0; i < ly; i++) {
src_buf = rin->pixels(i);
dst_buf = rout->pixels(i);
for (j = 0; j < lx; j++, src_buf++, dst_buf++) {
double valr = 0, valg = 0, valb = 0, valm = 0;
double angle = 0, blurangle, dist, ddist = 0, rangeinv = 0, tmpangle = 0;
int ii, vx, vy;
int shiftx, shifty, range = 0;
vx = (int)(j - cx);
vy = (int)(i - cy);
dist = sqrt((double)(vx * vx + vy * vy));
if (dist > radius)
blurangle = intensity * ((dist - radius));
else
blurangle = 0;
if (blurangle > M_PI) blurangle = M_PI;
range = (int)(4 * blurangle * dist);
if (range >= 1) {
angle = atan2((double)vy, (double)vx) - blurangle;
ddist = 0.5 / dist;
for (ii = 0; ii <= range; ii++) {
tmpangle = angle + ii * (ddist);
shiftx = (int)(dist * cos(tmpangle));
shifty = (int)(dist * sin(tmpangle));
if ((shiftx) < XMIN) continue; // shiftx=XMIN;
if ((shiftx) >= XMAX) continue; //=XMAX-1;
if ((shifty) < YMIN) continue; //=YMIN;
if ((shifty) >= YMAX) continue; //=YMAX-1;
valr += rin->pixels(0 + shifty + cy)[shiftx + cx].r;
valg += rin->pixels(0 + shifty + cy)[shiftx + cx].g;
valb += rin->pixels(0 + shifty + cy)[shiftx + cx].b;
valm += rin->pixels(0 + shifty + cy)[shiftx + cx].m;
}
rangeinv = 1.0 / (range + 1);
valr *= rangeinv;
valg *= rangeinv;
valb *= rangeinv;
valm *= rangeinv;
dst_buf->r = (valr > CROP_VAL) ? U_CROP_VAL
: ((valr < 0) ? 0 : (CHANNEL_TYPE)valr);
dst_buf->g = (valg > CROP_VAL) ? U_CROP_VAL
: ((valg < 0) ? 0 : (CHANNEL_TYPE)valg);
dst_buf->b = (valb > CROP_VAL) ? U_CROP_VAL
: ((valb < 0) ? 0 : (CHANNEL_TYPE)valb);
dst_buf->m = (valm > CROP_VAL) ? U_CROP_VAL
: ((valm < 0) ? 0 : (CHANNEL_TYPE)valm);
} else {
*(dst_buf) = *(src_buf);
}
}
}
rin->unlock();
rout->unlock();
}
//------------------------------------------------------------------------------
//! Calculates the geometry we need for this node computation, given
//! the known input data (bbox) and the requested output (requestedGeom).
void SpinBlurFx::enlarge(const TRectD &bbox, TRectD &requestedGeom,
const TRenderSettings &ri, double frame) {
TRectD enlargedBbox(bbox);
TRectD enlargedGeom(requestedGeom);
TPointD originalP00(requestedGeom.getP00());
double maxRange = getMaxBraid(enlargedBbox, frame, ri.m_affine);
enlargedBbox = enlargedBbox.enlarge(maxRange);
enlargedGeom = enlargedGeom.enlarge(maxRange);
// We are to find out the geometry that is useful for the fx computation.
// There are some rules to follow:
// a) First, the interesting output we can generate is bounded by both
// the requestedRect and the blurred bbox (i.e. enlarged by the blur
// radius).
// b) Pixels contributing to any output are necessarily part of bbox - and
// only
// those which are blurrable into the requestedRect are useful to us
// (i.e. pixels contained in its enlargement by the blur radius).
requestedGeom = (enlargedGeom * bbox) + (enlargedBbox * requestedGeom);
// Finally, make sure that the result is coherent with the original P00
requestedGeom -= originalP00;
requestedGeom.x0 = tfloor(requestedGeom.x0);
requestedGeom.y0 = tfloor(requestedGeom.y0);
requestedGeom.x1 = tceil(requestedGeom.x1);
requestedGeom.y1 = tceil(requestedGeom.y1);
requestedGeom += originalP00;
}
//------------------------------------------------------------------------------
void SpinBlurFx::transform(double frame, int port, const TRectD &rectOnOutput,
const TRenderSettings &infoOnOutput,
TRectD &rectOnInput, TRenderSettings &infoOnInput) {
TRectD rectOut(rectOnOutput);
if (canHandle(infoOnOutput, frame))
infoOnInput = infoOnOutput;
else {
infoOnInput = infoOnOutput;
infoOnInput.m_affine = TAffine(); // because the affine does not commute
rectOut = infoOnOutput.m_affine.inv() * rectOut;
}
TRectD bbox;
m_input->getBBox(frame, bbox, infoOnInput);
if (bbox == TConsts::infiniteRectD) bbox = rectOut;
rectOnInput = rectOut;
enlarge(bbox, rectOnInput, infoOnInput, frame);
}
//------------------------------------------------------------------------------
void SpinBlurFx::doCompute(TTile &tile, double frame,
const TRenderSettings &ri) {
if (!m_input.isConnected()) return;
double scale = sqrt(fabs(ri.m_affine.det()));
TPointD point = ri.m_affine * m_point->getValue(frame);
double radius = m_radius->getValue(frame) * scale;
double blur = 0.001 * m_blur->getValue(frame) / scale;
TRectD tileRect = convert(tile.getRaster()->getBounds()) + tile.m_pos;
TRectD bBox;
m_input->getBBox(frame, bBox, ri);
if (bBox.isEmpty()) return;
if (bBox == TConsts::infiniteRectD) bBox = tileRect;
enlarge(bBox, tileRect, ri, frame);
TPointD tileRectCenter = (tileRect.getP00() + tileRect.getP11()) * 0.5;
point -= tileRectCenter;
int rasInLx = tileRect.getLx();
int rasInLy = tileRect.getLy();
TRaster32P raster32 = tile.getRaster();
TRaster64P raster64 = tile.getRaster();
TPoint offset = convert(tile.m_pos - tileRect.getP00());
TTile tileIn;
if (raster32) {
m_input->allocateAndCompute(tileIn, tileRect.getP00(),
TDimension(rasInLx, rasInLy), raster32, frame,
ri);
TRaster32P rin = tileIn.getRaster();
TRaster32P app = raster32->create(rasInLx, rasInLy);
doSpinBlur<TPixel32, UCHAR, 255>(app, rin, blur, radius, point);
raster32->copy(app, -offset);
} else if (raster64) {
TRaster64P raster64 = tile.getRaster();
m_input->allocateAndCompute(tileIn, tileRect.getP00(),
TDimension(rasInLx, rasInLy), raster64, frame,
ri);
TRaster64P rin = tileIn.getRaster();
TRaster64P app = raster64->create(rasInLx, rasInLy);
doSpinBlur<TPixel64, USHORT, 65535>(app, rin, blur, radius, point);
raster64->copy(app, -offset);
} else
throw TException("Brightness&Contrast: unsupported Pixel Type");
/* TRectD rectIn = convert(tile.getRaster()->getBounds()) + tile.m_pos;
TPointD rectInCenter=(rectIn.getP00()+rectIn.getP11())*0.5;
//rectIn = rectIn.enlarge(blur);
int rasInLx = tround(rectIn.getLx())+1;
int rasInLy = tround(rectIn.getLy())+1;
point-=rectInCenter;
TRaster32P raster32 = tile.getRaster();
TTile tileIn;
if (raster32)
{
m_input->allocateAndCompute(tileIn, rectIn.getP00(),
TDimension(rasInLx, rasInLy),
raster32, frame, ri);
TRaster32P rin=tileIn.getRaster();
doSpinBlur<TPixel32, UCHAR, 255>(raster32, rin, blur, radius, point);
}
else
{
TRaster64P raster64 = tile.getRaster();
m_input->allocateAndCompute(tileIn, rectIn.getP00(),
TDimension(rasInLx, rasInLy),
raster64, frame, ri);
TRaster64P rin=tileIn.getRaster();
if (raster64)
doSpinBlur<TPixel64, USHORT, 65535>(raster64, rin, blur, radius, point);
else
throw TException("Brightness&Contrast: unsupported Pixel Type");
}
*/
}
//------------------------------------------------------------------
int SpinBlurFx::getMemoryRequirement(const TRectD &rect, double frame,
const TRenderSettings &info) {
double scale = sqrt(fabs(info.m_affine.det()));
TPointD point = info.m_affine * m_point->getValue(frame);
double blur = 0.001 * m_blur->getValue(frame) / scale;
TRectD bBox;
m_input->getBBox(frame, bBox, info);
if (bBox.isEmpty()) return 0;
if (bBox == TConsts::infiniteRectD) bBox = rect;
TRectD tileRect(rect);
enlarge(bBox, tileRect, info, frame);
return TRasterFx::memorySize(tileRect.enlarge(blur), info.m_bpp);
}
//------------------------------------------------------------------
FX_PLUGIN_IDENTIFIER(SpinBlurFx, "rotationalBlurFx")