#include "toonz/scriptbinding_outline_vectorizer.h"
#include "toonz/scriptbinding_level.h"
#include "toonz/tcenterlinevectorizer.h"
#include "toonz/stage.h"
#include "ttoonzimage.h"
#include "tpalette.h"
namespace TScriptBinding {
OutlineVectorizer::OutlineVectorizer() {
m_parameters = new NewOutlineConfiguration();
}
OutlineVectorizer::~OutlineVectorizer() { delete m_parameters; }
QScriptValue OutlineVectorizer::toString() { return "Outline Vectorizer"; }
QScriptValue OutlineVectorizer::ctor(QScriptContext *context,
QScriptEngine *engine) {
return create(engine, new OutlineVectorizer());
}
static QScriptValue vectorizeImage(QScriptContext *context,
QScriptEngine *engine, const TImageP &src,
TPalette *palette,
NewOutlineConfiguration *parameters) {
VectorizerCore vc;
TAffine dpiAff;
double factor = Stage::inch;
double dpix = factor / 72, dpiy = factor / 72;
TPointD center;
if (TRasterImageP ri = src) {
ri->getDpi(dpix, dpiy);
center = ri->getRaster()->getCenterD();
} else if (TToonzImageP ti = src) {
ti->getDpi(dpix, dpiy);
center = ti->getRaster()->getCenterD();
} else {
return context->throwError(QObject::tr("Vectorization failed"));
}
if (dpix != 0.0 && dpiy != 0.0) dpiAff = TScale(factor / dpix, factor / dpiy);
factor = norm(dpiAff * TPointD(1, 0));
parameters->m_affine = dpiAff * TTranslation(-center);
parameters->m_thickScale = factor;
TVectorImageP vi = vc.vectorize(src, *parameters, palette);
vi->setPalette(palette);
return engine->newQObject(new Image(vi), QScriptEngine::AutoOwnership);
}
QScriptValue OutlineVectorizer::vectorize(QScriptValue arg) {
Level *level = qscriptvalue_cast<Level *>(arg);
Image *img = qscriptvalue_cast<Image *>(arg);
QString type;
TPalette *palette = 0;
if (level) {
type = level->getType();
if (type != "Raster" && type != "ToonzRaster")
return context()->throwError(tr("Can't vectorize a %1 level").arg(type));
if (level->getFrameCount() <= 0)
return context()->throwError(
tr("Can't vectorize a level with no frames"));
palette = level->getSimpleLevel()->getPalette();
} else if (img) {
type = img->getType();
if (type != "Raster" && type != "ToonzRaster")
return context()->throwError(tr("Can't vectorize a %1 image").arg(type));
if (TToonzImageP ti = img->getImg()) {
palette = ti->getPalette();
}
} else {
return context()->throwError(
tr("Bad argument (%1): should be an Image or a Level")
.arg(arg.toString()));
}
if (palette == 0) palette = new TPalette();
if (img) {
return vectorizeImage(context(), engine(), img->getImg(), palette,
m_parameters);
} else if (level) {
QScriptValue newLevel = create(engine(), new Level());
QList<TFrameId> fids;
level->getFrameIds(fids);
for (const TFrameId &fid : fids) {
TImageP srcImg = level->getImg(fid);
if (srcImg && (srcImg->getType() == TImage::RASTER ||
srcImg->getType() == TImage::TOONZ_RASTER)) {
QScriptValue newFrame =
vectorizeImage(context(), engine(), srcImg, palette, m_parameters);
if (newFrame.isError()) {
return newFrame;
}
QScriptValueList args;
args << QString::fromStdString(fid.expand()) << newFrame;
newLevel.property("setFrame").call(newLevel, args);
}
}
return newLevel;
} else {
// should never happen
return QScriptValue();
}
}
int OutlineVectorizer::getAccuracy() const {
return (5.0 - m_parameters->m_mergeTol) * 2.0;
}
void OutlineVectorizer::setAccuracy(int v) {
m_parameters->m_mergeTol = 5.0 - v * 0.5;
}
int OutlineVectorizer::getDespeckling() const {
return m_parameters->m_despeckling;
}
void OutlineVectorizer::setDespeckling(int v) {
m_parameters->m_despeckling = v;
}
bool OutlineVectorizer::getPreservePaintedAreas() const {
return !m_parameters->m_leaveUnpainted;
}
void OutlineVectorizer::setPreservePaintedAreas(bool v) {
m_parameters->m_leaveUnpainted = !v;
}
double OutlineVectorizer::getCornerAdherence() const {
return m_parameters->m_adherenceTol * 100.0;
}
void OutlineVectorizer::setCornerAdherence(double v) {
m_parameters->m_adherenceTol = 0.01 * v;
}
double OutlineVectorizer::getCornerAngle() const {
return m_parameters->m_angleTol * 180.0;
}
void OutlineVectorizer::setCornerAngle(double v) {
m_parameters->m_angleTol = v / 180.0;
}
double OutlineVectorizer::getCornerCurveRadius() const {
return m_parameters->m_relativeTol * 100;
}
void OutlineVectorizer::setCornerCurveRadius(double v) {
m_parameters->m_relativeTol = 0.01 * v;
}
int OutlineVectorizer::getMaxColors() const {
return m_parameters->m_maxColors;
}
void OutlineVectorizer::setMaxColors(int v) { m_parameters->m_maxColors = v; }
QString OutlineVectorizer::getTransparentColor() const {
TPixel32 c = m_parameters->m_transparentColor;
QColor color(c.r, c.g, c.b, c.m);
return color.name();
}
void OutlineVectorizer::setTransparentColor(const QString &colorName) {
QColor color;
color.setNamedColor(colorName);
if (color.isValid()) {
m_parameters->m_transparentColor =
TPixel32(color.red(), color.green(), color.blue(), color.alpha());
} else {
context()->throwError(tr("Invalid color : ").arg(colorName));
}
}
int OutlineVectorizer::getToneThreshold() const {
return m_parameters->m_toneTol;
}
void OutlineVectorizer::setToneThreshold(int v) { m_parameters->m_toneTol = v; }
} // namespace TScriptBinding