305 lines
8 KiB
C++
305 lines
8 KiB
C++
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#include "stdfx.h"
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#include "tfxparam.h"
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#include "tparamset.h"
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#include "toonz/tdistort.h"
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//****************************************************************************
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// Local namespace stuff
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//****************************************************************************
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namespace
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{
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class KaleidoDistorter : public TDistorter
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{
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double m_angle;
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TAffine m_aff;
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TPointD m_shift;
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public:
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KaleidoDistorter(double angle, const TAffine &aff, const TPointD shift)
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: m_angle(angle), m_aff(aff), m_shift(shift) {}
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TPointD map(const TPointD &p) const { return TPointD(); }
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int maxInvCount() const { return 1; }
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int invMap(const TPointD &p, TPointD *results) const;
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};
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//-------------------------------------------------------------------
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int KaleidoDistorter::invMap(const TPointD &p, TPointD *results) const
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{
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TPointD q(m_aff * p);
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// Build p's angular position
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double qAngle = atan2(q.y, q.x);
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if (qAngle < 0.0)
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qAngle += 2.0 * TConsts::pi;
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assert(qAngle >= 0.0);
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int section = tfloor(qAngle / m_angle);
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bool reflect = (bool)(section % 2);
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double normQ = norm(q);
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if (reflect) {
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double newAngle = qAngle - (section + 1) * m_angle;
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results[0].x = normQ * cos(newAngle) + m_shift.x;
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results[0].y = -normQ * sin(newAngle) + m_shift.y;
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} else {
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double newAngle = qAngle - section * m_angle;
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results[0].x = normQ * cos(newAngle) + m_shift.x;
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results[0].y = normQ * sin(newAngle) + m_shift.y;
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}
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return 1;
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}
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} // namespace
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//****************************************************************************
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// Kaleido Fx
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//****************************************************************************
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class KaleidoFx : public TStandardRasterFx
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{
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FX_PLUGIN_DECLARATION(KaleidoFx)
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TRasterFxPort m_input;
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TPointParamP m_center;
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TDoubleParamP m_angle;
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TIntParamP m_count;
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public:
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KaleidoFx()
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: m_center(TPointD()), m_angle(0.0), m_count(3)
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{
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m_center->getX()->setMeasureName("fxLength");
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m_center->getY()->setMeasureName("fxLength");
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m_angle->setMeasureName("angle");
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bindParam(this, "center", m_center);
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bindParam(this, "angle", m_angle);
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bindParam(this, "count", m_count);
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addInputPort("Source", m_input);
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m_count->setValueRange(1, 100);
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}
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~KaleidoFx(){};
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bool doGetBBox(double frame, TRectD &bBox, const TRenderSettings &info);
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void doDryCompute(TRectD &rect, double frame, const TRenderSettings &ri);
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void doCompute(TTile &tile, double frame, const TRenderSettings &ri);
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int getMemoryRequirement(const TRectD &rect, double frame, const TRenderSettings &info);
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bool canHandle(const TRenderSettings &info, double frame)
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{
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return isAlmostIsotropic(info.m_affine);
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}
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private:
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void buildSectionRect(TRectD &inRect, double angle);
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void rotate(TRectD &rect);
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TAffine buildInputReference(double frame,
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TRectD &inRect, TRenderSettings &inInfo,
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const TRectD &outRect, const TRenderSettings &outInfo);
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};
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//-------------------------------------------------------------------
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void KaleidoFx::buildSectionRect(TRectD &inRect, double angle)
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{
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inRect.y0 = tmax(inRect.y0, 0.0);
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if (angle <= TConsts::pi_2) {
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inRect.x0 = tmax(inRect.x0, 0.0);
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inRect.y1 = tmin(inRect.y1, inRect.x1 * tan(angle));
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}
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}
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//-------------------------------------------------------------------
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void KaleidoFx::rotate(TRectD &rect)
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{
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TPointD pMax(tmax(-rect.x0, rect.x1), tmax(-rect.y0, rect.y1));
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double normPMax = norm(pMax);
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rect = TRectD(-normPMax, -normPMax, normPMax, normPMax);
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}
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//-------------------------------------------------------------------
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TAffine KaleidoFx::buildInputReference(
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double frame,
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TRectD &inRect, TRenderSettings &inInfo,
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const TRectD &outRect, const TRenderSettings &outInfo)
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{
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double scale = fabs(sqrt(outInfo.m_affine.det()));
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double angle = TConsts::pi / m_count->getValue();
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inInfo.m_affine = TRotation(-m_angle->getValue(frame) - angle) *
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TScale(scale).place(m_center->getValue(frame), TPointD());
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TAffine outRefToInRef(inInfo.m_affine * outInfo.m_affine.inv());
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// Build the input bounding box
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TRectD inBBox;
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m_input->getBBox(frame, inBBox, inInfo);
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// Rotate the output rect in the input reference. This is required since the rotational
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// deformation may rotate points outside the rect, inside it.
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TRectD outRect_inputRef(outRefToInRef * outRect);
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rotate(outRect_inputRef);
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// Intersect with the useful kaleido region
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inRect = inBBox * outRect_inputRef;
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buildSectionRect(inRect, angle);
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return outRefToInRef;
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}
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//-------------------------------------------------------------------
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bool KaleidoFx::doGetBBox(double frame, TRectD &bBox, const TRenderSettings &info)
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{
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//Remember: info.m_affine MUST NOT BE CONSIDERED in doGetBBox's implementation
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//Retrieve the input bbox without applied affines.
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if (!m_input.getFx())
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return false;
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double angle = TConsts::pi / m_count->getValue();
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TRenderSettings inInfo(info);
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inInfo.m_affine = TRotation(-m_angle->getValue(frame) - angle) *
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TTranslation(-m_center->getValue(frame));
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if (!m_input->getBBox(frame, bBox, inInfo))
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return false;
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TRectD infiniteRect(TConsts::infiniteRectD);
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TRectD kaleidoRect(
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(m_count->getValue() > 1) ? 0.0 : infiniteRect.x0, 0.0,
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infiniteRect.x1, infiniteRect.y1);
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bBox *= kaleidoRect;
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if (bBox.x0 == infiniteRect.x0 || bBox.x1 == infiniteRect.x1 || bBox.y1 == infiniteRect.y1) {
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bBox = infiniteRect;
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return true;
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}
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buildSectionRect(bBox, angle);
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// Now, we must rotate the bBox in order to obtain the kaleidoscoped box
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rotate(bBox);
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// Finally, bring it back to standard reference
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bBox = inInfo.m_affine.inv() * bBox;
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return true;
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}
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//-------------------------------------------------------------------
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void KaleidoFx::doDryCompute(TRectD &rect, double frame, const TRenderSettings &info)
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{
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if (!m_input.isConnected())
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return;
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if (fabs(info.m_affine.det()) < TConsts::epsilon)
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return;
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// Build the input reference
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TRectD inRect;
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TRenderSettings inInfo(info);
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TAffine outRefToInRef(buildInputReference(frame, inRect, inInfo, rect, info));
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if (inRect.getLx() <= 0.0 || inRect.getLy() <= 0.0)
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return;
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inRect = inRect.enlarge(1.0); // tdistort() seems to need it
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// Allocate a corresponding input tile and calculate it
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m_input->dryCompute(inRect, frame, inInfo);
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}
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//-------------------------------------------------------------------
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void KaleidoFx::doCompute(TTile &tile, double frame, const TRenderSettings &info)
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{
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if (!m_input.isConnected())
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return;
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if (fabs(info.m_affine.det()) < TConsts::epsilon)
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return;
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// Build the output rect
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TDimension tileSize(tile.getRaster()->getSize());
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TRectD tileRect(tile.m_pos, TDimensionD(tileSize.lx, tileSize.ly));
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// Build the input reference
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TRectD inRect;
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TRenderSettings inInfo(info);
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TAffine outRefToInRef(buildInputReference(frame, inRect, inInfo, tileRect, info));
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if (inRect.getLx() <= 0.0 || inRect.getLy() <= 0.0)
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return;
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inRect = inRect.enlarge(1.0); // tdistort() seems to need it
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// Allocate a corresponding input tile and calculate it
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TTile inTile;
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TDimension inDim(tceil(inRect.getLx()), tceil(inRect.getLy()));
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m_input->allocateAndCompute(inTile, inRect.getP00(), inDim, tile.getRaster(), frame, inInfo);
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// Now, perform kaleido
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double angle = TConsts::pi / m_count->getValue();
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KaleidoDistorter distorter(angle, outRefToInRef, -inRect.getP00());
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TRasterP inRas(inTile.getRaster());
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TRasterP tileRas(tile.getRaster());
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distort(tileRas, inRas, distorter, convert(tile.m_pos));
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}
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//------------------------------------------------------------------
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int KaleidoFx::getMemoryRequirement(const TRectD &rect, double frame, const TRenderSettings &info)
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{
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if (!m_input.isConnected())
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return 0;
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if (fabs(info.m_affine.det()) < TConsts::epsilon)
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return 0;
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// Build the input reference
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TRectD inRect;
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TRenderSettings inInfo(info);
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TAffine outRefToInRef(buildInputReference(frame, inRect, inInfo, rect, info));
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if (inRect.getLx() <= 0.0 || inRect.getLy() <= 0.0)
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return 0;
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inRect = inRect.enlarge(1.0); // tdistort() seems to need it
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return TRasterFx::memorySize(inRect, info.m_bpp);
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}
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//------------------------------------------------------------------
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FX_PLUGIN_IDENTIFIER(KaleidoFx, "kaleidoFx");
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