//! Elimina i segmenti che non sono contenuti all'interno dello stroke!!!
void checkSegments(std::vector<TAutocloser::Segment> &segments,
TStroke *stroke, const TRasterCM32P &ras,
const TPoint &delta) {
TVectorImage vi;
TStroke *app = new TStroke();
*app = *stroke;
app->transform(TTranslation(convert(ras->getCenter())));
vi.addStroke(app);
vi.findRegions();
std::vector<TAutocloser::Segment>::iterator it = segments.begin();
for (; it < segments.end(); it++) {
if (it == segments.end()) break;
int i;
bool isContained = false;
for (i = 0; i < (int)vi.getRegionCount(); i++) {
TRegion *reg = vi.getRegion(i);
if (reg->contains(convert(it->first + delta)) &&
reg->contains(convert(it->second + delta))) {
isContained = true;
break;
}
}
if (!isContained) {
it = segments.erase(it);
if (it != segments.end() && it != segments.begin())
it--;
else if (it == segments.end())
break;
}
}
}
void DragSelectionTool::RasterDeformTool::applyTransform(FourPoints bbox)
{
RasterSelectionTool *tool = (RasterSelectionTool *)getTool();
tool->setNewFreeDeformer();
if (!m_deformUndo)
m_deformUndo = new UndoRasterDeform(tool);
RasterSelection *selection = dynamic_cast<RasterSelection *>(tool->getSelection());
assert(selection);
FourPoints realBbox = bbox * selection->getTransformation().inv();
RasterFreeDeformer *freeDeformer = (RasterFreeDeformer *)tool->getFreeDeformer();
freeDeformer->setNoAntialiasing(tool->getNoAntialiasingValue());
freeDeformer->setPoints(realBbox.getP00(), realBbox.getP10(), realBbox.getP11(), realBbox.getP01());
freeDeformer->deformImage();
selection->setFloatingSeletion(freeDeformer->getImage());
VectorFreeDeformer *vectorFreeDeformer = tool->getSelectionFreeDeformer();
if (vectorFreeDeformer) {
vectorFreeDeformer->setPoints(realBbox.getP00(), realBbox.getP10(), realBbox.getP11(), realBbox.getP01());
vectorFreeDeformer->deformImage();
TVectorImage *vi = vectorFreeDeformer->getDeformedImage();
std::vector<TStroke> newStrokes;
int i;
for (i = 0; i < (int)vi->getStrokeCount(); i++)
newStrokes.push_back(*(vi->getStroke(i)));
selection->setStrokes(newStrokes);
}
tool->m_deformValues.m_isSelectionModified = true;
if (!m_isDragging)
tool->notifyImageChanged();
}
void RasterSelectionTool::setNewFreeDeformer()
{
if (!m_freeDeformers.empty() || isSelectionEmpty())
return;
TImageP image = (TImageP)getImage(true);
TToonzImageP ti = (TToonzImageP)image;
TRasterImageP ri = (TRasterImageP)image;
if (!ti && !ri)
return;
if (!isFloating())
m_rasterSelection.makeFloating();
m_freeDeformers.push_back(new RasterFreeDeformer(m_rasterSelection.getFloatingSelection()));
std::vector<TStroke> strokes = m_rasterSelection.getOriginalStrokes();
if (!strokes.empty()) {
TVectorImage *vi = new TVectorImage();
std::set<int> indices;
//Devo deformare anche gli strokes della selezione!!!
int i;
for (i = 0; i < (int)strokes.size(); i++) {
vi->addStroke(new TStroke(strokes[i]));
indices.insert(i);
}
m_selectionFreeDeformer = new VectorFreeDeformer(vi, indices);
m_selectionFreeDeformer->setPreserveThickness(true);
}
}
static void selectStyles(const TVectorImage &vi, const std::set<int> &styles,
std::vector<int> &strokes)
{
UINT s, sCount = vi.getStrokeCount();
for (s = 0; s != sCount; ++s) {
if (styles.count(vi.getStroke(s)->getStyle()))
strokes.push_back(s);
}
}
std::vector<int> getSelectedStrokes(TVectorImage &vi, const LevelSelection &levelSelection)
{
struct locals {
static void selectStyles(const TVectorImage &vi, const std::set<int> &styles,
std::vector<int> &strokes)
{
UINT s, sCount = vi.getStrokeCount();
for (s = 0; s != sCount; ++s) {
if (styles.count(vi.getStroke(s)->getStyle()))
strokes.push_back(s);
}
}
}; // locals
std::vector<int> strokes;
switch (levelSelection.filter()) {
case LevelSelection::EMPTY:;
CASE LevelSelection::WHOLE : strokes.assign(boost::make_counting_iterator(0u),
boost::make_counting_iterator(vi.getStrokeCount()));
CASE LevelSelection::SELECTED_STYLES : locals::selectStyles(vi, levelSelection.styles(), strokes);
CASE LevelSelection::BOUNDARY_STROKES : getBoundaries(vi, strokes);
}
return strokes;
}
void stroke_autofill_learn(const TVectorImageP &imgToLearn, TStroke *stroke) {
if (!imgToLearn || !stroke || stroke->getControlPointCount() == 0) return;
TVectorImage appImg;
TStroke *appStroke = new TStroke(*stroke);
appImg.addStroke(appStroke);
appImg.findRegions();
double pbx, pby;
double totalArea = 0;
pbx = pby = 0;
if (!regionsReference.isEmpty()) regionsReference.clear();
int i, j, index = 0;
for (i = 0; i < (int)imgToLearn->getRegionCount(); i++) {
TRegion *currentRegion = imgToLearn->getRegion(i);
for (j = 0; j < (int)appImg.getRegionCount(); j++) {
TRegion *region = appImg.getRegion(j);
if (contains(region, currentRegion)) {
scanRegion(currentRegion, index, regionsReference, region->getBBox());
index++;
int k, subRegionCount = currentRegion->getSubregionCount();
for (k = 0; k < subRegionCount; k++) {
TRegion *subRegion = currentRegion->getSubregion(k);
if (contains(region, subRegion))
scanSubRegion(subRegion, index, regionsReference,
region->getBBox());
}
}
}
}
QMap<int, Region>::Iterator it;
for (it = regionsReference.begin(); it != regionsReference.end(); it++) {
pbx += it.value().m_barycentre.x;
pby += it.value().m_barycentre.y;
totalArea += it.value().m_area;
}
if (totalArea > 0)
referenceB = TPointD(pbx / totalArea, pby / totalArea);
else
referenceB = TPointD(0.0, 0.0);
}
void AreaFiller::strokeFill(TStroke *stroke, int colorId, bool onlyUnfilled,
bool fillPaints, bool fillInks) {
stroke->transform(TTranslation(convert(m_ras->getCenter())));
m_ras->lock();
std::vector<std::pair<TPoint, int>> seeds;
computeSeeds(m_ras, stroke, seeds);
TVectorImage app;
app.addStroke(stroke);
app.findRegions();
for (UINT i = 0; i < app.getRegionCount(); i++)
fillArea(m_ras, app.getRegion(i), colorId, onlyUnfilled, fillPaints,
fillInks);
app.removeStroke(0);
stroke->transform(TTranslation(convert(-m_ras->getCenter())));
restoreColors(m_ras, seeds);
m_ras->unlock();
}
bool stroke_autofill_apply(const TVectorImageP &imgToApply, TStroke *stroke,
bool selective) {
if (!imgToApply || !stroke || stroke->getControlPointCount() == 0)
return false;
TVectorImage appImg;
TStroke *appStroke = new TStroke(*stroke);
appImg.addStroke(appStroke);
appImg.findRegions();
if (regionsReference.size() <= 0) return false;
double pbx, pby;
double totalArea = 0;
pbx = pby = 0.0;
if (!regionsWork.isEmpty()) regionsWork.clear();
int i, j, index = 0;
for (i = 0; i < (int)imgToApply->getRegionCount(); i++) {
TRegion *currentRegion = imgToApply->getRegion(i);
for (j = 0; j < (int)appImg.getRegionCount(); j++) {
TRegion *region = appImg.getRegion(j);
if (contains(region, currentRegion)) {
scanRegion(currentRegion, index, regionsWork, region->getBBox());
index++;
int k, subRegionCount = currentRegion->getSubregionCount();
for (k = 0; k < subRegionCount; k++) {
TRegion *subRegion = currentRegion->getSubregion(k);
if (contains(region, subRegion))
scanSubRegion(subRegion, index, regionsWork, region->getBBox());
}
}
}
}
if (regionsWork.size() <= 0) return false;
QMap<int, Region>::Iterator it;
for (it = regionsWork.begin(); it != regionsWork.end(); it++) {
pbx += it.value().m_barycentre.x;
pby += it.value().m_barycentre.y;
totalArea += it.value().m_area;
}
workB = TPointD(pbx / totalArea, pby / totalArea);
std::vector<MatchingProbs> probVector;
RegionDataList::Iterator refIt, workIt;
for (refIt = regionsReference.begin(); refIt != regionsReference.end();
refIt++)
for (workIt = regionsWork.begin(); workIt != regionsWork.end(); workIt++)
assignProbs(probVector, refIt.value(), workIt.value(), refIt.key(),
workIt.key());
bool filledRegions = false;
for (refIt = regionsReference.begin(); refIt != regionsReference.end();
refIt++) {
int to = 0, from = 0;
int valore = 0;
do
valore = match(probVector, from, to);
while ((regionsWork[to].m_match != -1 ||
regionsReference[from].m_match != -1) &&
valore > 0);
if (valore > AMB_TRESH) {
regionsWork[to].m_match = from;
regionsReference[from].m_match = to;
regionsWork[to].m_styleId = regionsReference[from].m_styleId;
TRegion *reg = regionsWork[to].m_region;
if (reg && (!selective || selective && reg->getStyle() == 0)) {
reg->setStyle(regionsWork[to].m_styleId);
filledRegions = true;
}
}
}
return filledRegions;
}
