std::string TGeometryFx::getAlias(double frame,
const TRenderSettings &info) const {
TGeometryFx *tthis = const_cast<TGeometryFx *>(this);
TAffine affine = tthis->getPlacement(frame);
std::string alias = getFxType();
alias += "[";
// alias degli effetti connessi alle porte di input separati da virgole
// una porta non connessa da luogo a un alias vuoto (stringa vuota)
for (int i = 0; i < getInputPortCount(); ++i) {
TFxPort *port = getInputPort(i);
if (port->isConnected()) {
TRasterFxP ifx = port->getFx();
assert(ifx);
alias += ifx->getAlias(frame, info);
}
alias += ",";
}
return alias +
(areAlmostEqual(affine.a11, 0) ? "0" : ::to_string(affine.a11, 5)) +
"," +
(areAlmostEqual(affine.a12, 0) ? "0" : ::to_string(affine.a12, 5)) +
"," +
(areAlmostEqual(affine.a13, 0) ? "0" : ::to_string(affine.a13, 5)) +
"," +
(areAlmostEqual(affine.a21, 0) ? "0" : ::to_string(affine.a21, 5)) +
"," +
(areAlmostEqual(affine.a22, 0) ? "0" : ::to_string(affine.a22, 5)) +
"," +
(areAlmostEqual(affine.a23, 0) ? "0" : ::to_string(affine.a23, 5)) +
"]";
}
std::string Iwa_TiledParticlesFx::getAlias(double frame, const TRenderSettings &info) const
{
std::string alias = getFxType();
alias += "[";
// alias degli effetti connessi alle porte di input separati da virgole
// una porta non connessa da luogo a un alias vuoto (stringa vuota)
for (int i = 0; i < getInputPortCount(); ++i) {
TFxPort *port = getInputPort(i);
if (port->isConnected()) {
TRasterFxP ifx = port->getFx();
assert(ifx);
alias += ifx->getAlias(frame, info);
}
alias += ",";
}
std::string paramalias("");
for (int i = 0; i < getParams()->getParamCount(); ++i) {
TParam *param = getParams()->getParam(i);
paramalias += param->getName() + "=" + param->getValueAlias(frame, 3);
}
return alias + toString(frame) + "," + toString(getIdentifier()) + paramalias + "]";
}
string TMacroFx::getAlias(double frame, const TRenderSettings &info) const
{
string alias = getFxType();
alias += "[";
// alias degli effetti connessi alle porte di input separati da virgole
// una porta non connessa da luogo a un alias vuoto (stringa vuota)
int i;
for (i = 0; i < getInputPortCount(); i++) {
TFxPort *port = getInputPort(i);
if (port->isConnected()) {
TRasterFxP ifx = port->getFx();
assert(ifx);
alias += ifx->getAlias(frame, info);
}
alias += ",";
}
// alias dei valori dei parametri dell'effetto al frame dato
for (int j = 0; j < (int)m_fxs.size(); j++) {
alias += (j == 0) ? "(" : ",(";
for (i = 0; i < m_fxs[j]->getParams()->getParamCount(); i++) {
if (i > 0)
alias += ",";
TParam *param = m_fxs[j]->getParams()->getParam(i);
alias += param->getName() + "=" + param->getValueAlias(frame, 2);
}
alias += ")";
}
alias += "]";
return alias;
}
bool ColumnColorFilterFx::doGetBBox(double frame, TRectD &bBox,
const TRenderSettings &info) {
if (!m_port.isConnected()) return false;
TRasterFxP fx = m_port.getFx();
assert(fx);
bool ret = fx->doGetBBox(frame, bBox, info);
return ret;
}
std::vector<const TFx *> calculateSortedFxs(TRasterFxP rootFx) {
std::map<const TFx *, std::set<const TFx *>> E; /* 辺の情報 */
std::set<const TFx *> Sources; /* 入次数0のノード群 */
std::queue<const TFx *> Q;
Q.push(rootFx.getPointer());
E[rootFx.getPointer()] = std::set<const TFx *>();
while (!Q.empty()) {
const TFx *vptr = Q.front();
Q.pop();
if (!vptr) {
continue;
}
/* 繋がっている入力ポートの先の Fx を訪問する
入力ポートが無ければ終了 */
int portCount = vptr->getInputPortCount();
if (portCount < 1) {
Sources.insert(vptr);
continue;
}
for (int i = 0; i < portCount; i++) {
TFxPort *port = vptr->getInputPort(i);
if (!port) {
continue;
}
TFxP u = port->getFx();
const TFx *uptr = u.getPointer();
if (E.count(uptr) == 0) {
E[uptr] = std::set<const TFx *>();
}
if (E[uptr].count(vptr) == 0) {
E[uptr].insert(vptr);
}
Q.push(uptr);
}
}
/* トポロジカルソート */
std::set<const TFx *> visited;
std::vector<const TFx *> L;
std::function<void(const TFx *)> visit = [&visit, &visited, &E,
&L](const TFx *fx) {
if (visited.count(fx)) return;
visited.insert(fx);
auto edge = E[fx];
for (auto i = edge.cbegin(); i != edge.cend(); i++) {
visit(*i);
}
L.insert(L.begin(), fx);
};
for (auto i = E.cbegin(); i != E.cend(); i++) {
visit(i->first);
}
return L;
}
void ColumnColorFilterFx::doCompute(TTile &tile, double frame,
const TRenderSettings &ri) {
if (!m_port.isConnected()) return;
if (!TRaster32P(tile.getRaster()) && !TRaster64P(tile.getRaster()))
throw TException("AffineFx unsupported pixel type");
TRasterFxP src = m_port.getFx();
src->compute(tile, frame, ri);
TRop::applyColorScale(tile.getRaster(), m_colorFilter);
}
std::string ColumnColorFilterFx::getAlias(double frame,
const TRenderSettings &info) const {
std::string alias = getFxType();
alias += "[";
if (m_port.isConnected()) {
TRasterFxP ifx = m_port.getFx();
assert(ifx);
alias += ifx->getAlias(frame, info);
}
alias += ",";
return alias + std::to_string(m_colorFilter.r) + "," +
std::to_string(m_colorFilter.g) + "," +
std::to_string(m_colorFilter.b) + "," +
std::to_string(m_colorFilter.m) + "]";
}
bool TGeometryFx::doGetBBox(double frame, TRectD &bBox,
const TRenderSettings &info) {
TRasterFxPort *input = dynamic_cast<TRasterFxPort *>(getInputPort(0));
assert(input);
if (input->isConnected()) {
TRasterFxP fx = input->getFx();
assert(fx);
bool ret = fx->doGetBBox(frame, bBox, info);
if (getActiveTimeRegion().contains(frame))
bBox = getPlacement(frame) * bBox;
return ret;
} else {
bBox = TRectD();
return false;
}
return true;
};
void Iwa_TiledParticlesFx::doDryCompute(TRectD &rect, double frame, const TRenderSettings &info)
{
Iwa_ParticlesManager *pc = Iwa_ParticlesManager::instance();
unsigned long fxId = getIdentifier();
int inputPortCount = getInputPortCount();
int i,
j,
curr_frame = frame, /*- 現在のフレーム -*/
startframe = startpos_val->getValue(); /*- Particesの開始フレーム -*/
TRenderSettings infoOnInput(info);
infoOnInput.m_affine = TAffine(); // Using the standard reference - indep. from cameras.
infoOnInput.m_bpp = 64; // Control ports rendered at 32 bit - since not visible.
for (i = startframe - 1; i <= curr_frame; ++i) {
double frame = tmax(0, i);
for (j = 0; j < inputPortCount; ++j) {
TFxPort *port = getInputPort(j);
std::string tmpName = getInputPortName(j);
if (port->isConnected()) {
TRasterFxP fx = port->getFx();
// Now, consider that source ports work different than control ones
QString portName = QString::fromStdString(tmpName);
if (portName.startsWith("C")) {
// Control ports are calculated from start to current frame, since
// particle mechanics at current frame is influenced by previous ones
// (and therefore by all previous control images).
TRectD bbox;
fx->getBBox(frame, bbox, infoOnInput);
if (bbox == TConsts::infiniteRectD)
bbox = info.m_affine.inv() * rect;
fx->dryCompute(bbox, frame, infoOnInput);
} else if (portName.startsWith("T")) {
// Particles handle source ports caching procedures on its own.
}
}
}
}
}
void TGeometryFx::doCompute(TTile &tile, double frame,
const TRenderSettings &ri) {
TRasterFxPort *input = dynamic_cast<TRasterFxPort *>(getInputPort(0));
assert(input);
if (!input->isConnected()) return;
if (!getActiveTimeRegion().contains(frame)) {
TRasterFxP(input->getFx())->compute(tile, frame, ri);
return;
}
if (!TRaster32P(tile.getRaster()) && !TRaster64P(tile.getRaster()))
throw TException("AffineFx unsupported pixel type");
TAffine aff1 = getPlacement(frame);
TRenderSettings ri2(ri);
ri2.m_affine = ri2.m_affine * aff1;
TRasterFxP src = getInputPort("source")->getFx();
src->compute(tile, frame, ri2);
return;
}
void SwatchViewer::computeContent()
{
if (suspendedRendering)
return;
if (!m_enabled)
return;
if (!m_raster)
return;
//Clear the swatch cache when the zoom scale has changed (cache results are not compatible
//between different scale levels)
if (m_aff.a11 != m_contentAff.a11)
SwatchCacheManager::instance()->clearSwatchResults();
TRect rect(0, 0, width() - 1, height() - 1);
TDimension size = rect.getSize();
assert(m_raster->getSize() == size);
if (m_fx) {
//TFxP fx = makeAffine(m_fx, m_aff);
//TRasterFxP rasterFx = fx;
TRasterFxP rasterFx = m_fx;
if (rasterFx) {
m_executor.cancelAll();
m_executor.addTask(new ContentRender(rasterFx.getPointer(), m_frame, size, this));
submittedTasks++;
return;
} else {
m_content = TRaster32P(size);
m_content->fill(TPixel32::Red);
}
} else {
m_content = TRaster32P(size);
m_content->fill(TPixel32::Transparent);
}
updateRaster();
}
void RenderCommand::flashRender()
{
ToonzScene *scene = TApp::instance()->getCurrentScene()->getScene();
TSceneProperties *sprop = scene->getProperties();
FILE *fileP = fopen(m_fp, "wb");
if (!fileP)
return;
ProgressDialog pb("rendering " + toQString(m_fp), "Cancel", 0, m_numFrames);
pb.show();
TDimension cameraSize = scene->getCurrentCamera()->getRes();
double frameRate = sprop->getOutputProperties()->getFrameRate();
TFlash flash(
cameraSize.lx,
cameraSize.ly,
m_numFrames,
frameRate,
sprop->getOutputProperties()->getFileFormatProperties("swf"));
flash.setBackgroundColor(sprop->getBgColor());
std::vector<TXshSoundColumn *> columns;
scene->getSoundColumns(columns);
if (!columns.empty()) {
TXsheet::SoundProperties *prop = new TXsheet::SoundProperties();
prop->m_frameRate = frameRate;
TSoundTrack *st = scene->getXsheet()->makeSound(prop);
if (st)
flash.putSound(st, 0);
}
int i = 0;
for (i = 0; i < m_numFrames; ++i, m_r += m_stepd) {
flash.beginFrame(m_step * i + 1);
TRasterFxP rfx = buildSceneFx(scene, m_r, 0, false);
assert(rfx);
rfx->compute(flash, tround(m_r)); // WARNING: This should accept a DOUBLE...
#ifdef BRAVODEMO
TRasterImageP ri(loadBravo(scene->getCurrentCamera()->getRes()));
int lx = ri->getRaster()->getLx();
int ly = ri->getRaster()->getLx();
flash.pushMatrix();
int dx = tround(0.1 * (cameraSize.lx - lx));
int dy = tround(0.1 * (cameraSize.ly - ly));
flash.multMatrix(TTranslation((cameraSize.lx - lx) / 2 - (dx > 0 ? dx : 0), -(cameraSize.ly - ly) / 2 + (dy > 0 ? dy : 0)));
flash.draw(ri, 0);
flash.popMatrix();
#endif
flash.endFrame(i == m_numFrames - 1, 0, true);
if (pb.wasCanceled())
break;
pb.setValue(i + 1);
}
flash.writeMovie(fileP);
fclose(fileP);
TSystem::showDocument(m_fp);
//QDesktopServices::openUrl(QUrl(toQString(m_fp)));
TImageCache::instance()->remove(toString(m_fp.getWideString() + L".0"));
TNotifier::instance()->notify(TSceneNameChange());
}
std::map<std::string, RenderTask *>::iterator jt;
for (it = renderDatas.begin(); it != renderDatas.end(); ++it) {
// Check for user cancels
if (hasToDie(renderId)) return;
// Build the frame's description alias
const TRenderer::RenderData &renderData = *it;
/*--- カメラサイズ (LevelAutoやノイズで使用する) ---*/
TRenderSettings rs = renderData.m_info;
rs.m_cameraBox = camBox;
/*--- 途中でPreview計算がキャンセルされたときのフラグ ---*/
rs.m_isCanceled = &renderInfos->m_canceled;
TRasterFxP fx = renderData.m_fxRoot.m_frameA;
assert(fx);
double frame = renderData.m_frame;
std::string alias = fx->getAlias(frame, renderData.m_info);
if (renderData.m_fxRoot.m_frameB)
alias = alias +
renderData.m_fxRoot.m_frameB->getAlias(frame, renderData.m_info);
// Search the alias among stored clusters - and store the frame
jt = clusters.find(alias);
if (jt == clusters.end()) {
RenderTask *newTask =
new RenderTask(renderId, tasksIdCounter++, renderData.m_frame, rs,
