#pragma warning(disable : 4533)
#include "tiio_std.h"
#include "tlevel.h"
#include "trasterimage.h"
#include "ttoonzimage.h"
#include "trastercm.h"
#include "tnzimage.h"
#include "tsystem.h"
#include "trop.h"
#include "toonz/fill.h"
#include "toonz/autoclose.h"
#include "tenv.h"
#include "convert2tlv.h"
#include "tstream.h"
#include <map>
#include "toonz/toonzfolders.h"
// gmt, 14/11/2013 removed a commented out blocks of code (void buildInks1(),
// void buildPalette() )
extern TEnv::DoubleVar AutocloseDistance;
extern TEnv::DoubleVar AutocloseAngle;
extern TEnv::IntVar AutocloseOpacity;
namespace {
//----------------------------------------------
inline TPixel unmultiply(const TPixel &in) {
if (in.r == 255) return in;
TPixel out;
int val = in.r * 255 / in.m;
out.r = tcrop(val, 0, 255);
val = in.g * 255 / in.m;
out.g = tcrop(val, 0, 255);
val = in.b * 255 / in.m;
out.b = tcrop(val, 0, 255);
out.m = 255;
return out;
}
//----------------------------------------------
inline int distance(const TPixel &c1, const TPixel &c2) {
return (c1.r - c2.r) * (c1.r - c2.r) + (c1.g - c2.g) * (c1.g - c2.g) +
(c1.b - c2.b) * (c1.b - c2.b);
}
//----------------------------------------------
int findClosest(const std::map<TPixel, int> &colorMap, TPixel &curPixColor) {
std::map<TPixel, int>::const_iterator it = colorMap.begin();
int minDistance = 1000000000;
int index = -1;
for (; it != colorMap.end(); ++it) {
int dist = distance(it->first, curPixColor);
if (dist < minDistance) {
minDistance = dist;
index = it->second;
}
}
assert(index != -1);
return index;
}
//----------------------------------------------
#define CHECKCOLOR(r, x, y, tone) \
{ \
TPixelCM32 color = *((TPixelCM32 *)r->pixels(y) + (x)); \
if (color.getTone() == tone /*&& color.getPaint()!=0*/) \
return TPoint(x, y); \
}
// cerca in quadrati concentrici di raggio rad intorno al pixel in (x, y)
// il primo pixel di paint puro e ritorna il suo indice di paint
TPoint getClosestToneValue(const TRasterCM32P &r, int y, int x, int tone) {
int maxRad = std::min({x, r->getLx() - x - 1, y, r->getLy() - y - 1});
for (int rad = 1; rad < maxRad; rad++) {
CHECKCOLOR(r, x, y - rad, tone)
CHECKCOLOR(r, x, y + rad, tone)
CHECKCOLOR(r, x - rad, y, tone)
CHECKCOLOR(r, x + rad, y, tone)
for (int j = 1; j <= rad; j++) {
CHECKCOLOR(r, x - j, y - rad, tone)
CHECKCOLOR(r, x + j, y - rad, tone)
CHECKCOLOR(r, x - j, y + rad, tone)
CHECKCOLOR(r, x + j, y + rad, tone)
CHECKCOLOR(r, x - rad, y - j, tone)
CHECKCOLOR(r, x - rad, y + j, tone)
CHECKCOLOR(r, x + rad, y - j, tone)
CHECKCOLOR(r, x + rad, y + j, tone)
}
}
return TPoint(-1, -1);
}
//--------------------------------------------------
TPoint getClosestPurePaint(const TRasterCM32P &r, int y, int x) {
return getClosestToneValue(r, y, x, 255);
}
//----------------------------------------------------
TPoint getClosestPureInk(const TRasterCM32P &r, int y, int x) {
return getClosestToneValue(r, y, x, 0);
}
//----------------------------------------------------
bool firstIsUnpainted(const TRaster32P &r1, const TRaster32P &r2) {
for (int i = 0; i < r1->getLy(); i++) {
TPixel32 *pix1 = r1->pixels(i);
TPixel32 *pix2 = r2->pixels(i);
for (int j = 0; j < r1->getLx(); j++, pix1++, pix2++) {
if (pix1->m == 255 && pix2->m == 0)
return false;
else if (pix1->m == 0 && pix2->m == 255)
return true;
}
}
return true;
}
//----------------------------------------------
// ritorna -1 se non ha il canale di matte (tutti i pixel a 255)
int getMaxMatte(const TRaster32P &r) {
int maxMatte = -1;
bool withMatte = false;
for (int i = 0; i < r->getLy(); i++) {
TPixel32 *pix = r->pixels(i);
for (int j = 0; j < r->getLx(); j++, pix++) {
maxMatte = std::max(maxMatte, (int)pix->m);
if (pix->m != 255) withMatte = true;
}
}
return withMatte ? maxMatte : -1;
}
//----------------------------------------------
void normalize(const TRaster32P &r, int maxMatte) {
int val;
for (int i = 0; i < r->getLy(); i++) {
TPixel32 *pix = r->pixels(i);
for (int j = 0; j < r->getLx(); j++, pix++) {
val = pix->r * 255 / maxMatte;
pix->r = tcrop(val, 0, 255);
val = pix->g * 255 / maxMatte;
pix->g = tcrop(val, 0, 255);
val = pix->b * 255 / maxMatte;
pix->b = tcrop(val, 0, 255);
val = pix->m * 255 / maxMatte;
pix->m = tcrop(val, 0, 255);
}
}
}
//----------------------------------------------------
int getFramesCount(const TLevelP &l, int from, int to) {
if (from == -1) return l->getFrameCount();
int count = 0;
TLevel::Iterator it = l->begin();
while (it != l->end() && it->first.getNumber() < from) it++;
while (it != l->end() && it->first.getNumber() <= to) it++, count++;
return count;
}
}
// namespace
std::map<TPixel, int>::const_iterator Convert2Tlv::findNearestColor(
const TPixel &color) {
// assert((int)colorMap.size()>toIndex);
// assert((int)colorMap.size()>fromIndex);
std::map<TPixel, int>::const_iterator ret = m_colorMap.end(),
it = m_colorMap.begin();
// std::advance(it, fromIndex);
int mindist = 1000;
for (; it != m_colorMap.end(); ++it) {
const TPixel &curr = it->first;
int dr = abs(curr.r - color.r);
if (dr > m_colorTolerance) continue;
int dg = abs(curr.g - color.g);
if (dg > m_colorTolerance) continue;
int db = abs(curr.b - color.b);
if (db > m_colorTolerance) continue;
int dist = dr + dg + db;
if (dist < mindist) {
mindist = dist;
ret = it;
}
}
return ret;
}
//-------------------------------------------------------------------
void Convert2Tlv::buildInks(TRasterCM32P &rout, const TRaster32P &rin) {
std::map<TPixel, int>::const_iterator it;
TPixel curColor = TPixel::Transparent;
int i, j;
int curIndex;
// prima passata: identifico i colori di inchiostro e metto in rout i pixel di
// inchiostro puro
for (i = 0; i < rin->getLy(); i++) {
TPixel *pixin = rin->pixels(i);
TPixelCM32 *pixout = rout->pixels(i);
for (j = 0; j < rin->getLx(); j++, pixin++, pixout++) {
TPixel colorIn;
if (pixin->m != 255) continue;
if (curColor != *pixin) {
curColor = *pixin;
if ((it = m_colorMap.find(curColor)) == m_colorMap.end()) {
if (m_colorTolerance > 0) it = findNearestColor(curColor);
// if (it==colorMap.end() && (int)colorMap.size()>origColorCount)
// it = findNearestColor(curColor, colorMap, colorTolerance,
// origColorCount, colorMap.size()-1);
if (it == m_colorMap.end() && m_lastIndex < 4095) {
m_colorMap[curColor] = ++m_lastIndex;
curIndex = m_lastIndex;
} else if (it != m_colorMap.end()) {
m_colorMap[curColor] = it->second;
curIndex = it->second;
}
} else
curIndex = it->second;
}
*pixout = TPixelCM32(curIndex, 0, 0);
}
}
// seconda passata: metto gli inchiostri di antialiasing
curColor = TPixel::Transparent;
for (i = 0; i < rin->getLy(); i++) {
TPixel *pixin = rin->pixels(i);
TPixelCM32 *pixout = rout->pixels(i);
for (j = 0; j < rin->getLx(); j++, pixin++, pixout++) {
TPixel colorIn;
if (pixin->m == 255) // gia' messo nel ciclo precedente
continue;
if (pixin->m == 0) continue;
colorIn = unmultiply(*pixin); // findClosestOpaque(rin, i, j);
if (curColor != colorIn) {
curColor = colorIn;
if ((it = m_colorMap.find(curColor)) != m_colorMap.end())
curIndex = it->second;
else
curIndex = findClosest(m_colorMap, curColor);
}
*pixout = TPixelCM32(curIndex, 0, 255 - pixin->m);
}
}
}
//----------------------------------------------
void Convert2Tlv::removeAntialias(TRasterCM32P &r) {
int threshold = (int)(m_antialiasValue * 255.0 / 100.0);
int tone;
for (int i = 0; i < r->getLy(); i++) {
TPixelCM32 *pix = r->pixels(i);
for (int j = 0; j < r->getLx(); j++, pix++)
if ((tone = pix->getTone()) !=
0xff) // tone==ff e tone==0 non vanno toccati mai
pix->setTone(tone > threshold ? 0xff : 0);
}
}
//------------------------------------------------------------------
void Convert2Tlv::buildInksFromGrayTones(TRasterCM32P &rout,
const TRasterP &rin) {
int i, j;
TRasterGR8P r8 = (TRasterGR8P)rin;
TRaster32P r32 = (TRaster32P)rin;
if (r8)
for (i = 0; i < rin->getLy(); i++) {
TPixelGR8 *pixin = r8->pixels(i);
TPixelCM32 *pixout = rout->pixels(i);
for (j = 0; j < rin->getLx(); j++, pixin++, pixout++)
*pixout = TPixelCM32(1, 0, pixin->value);
}
else
for (i = 0; i < rin->getLy(); i++) {
TPixel *pixin = r32->pixels(i);
TPixelCM32 *pixout = rout->pixels(i);
for (j = 0; j < rin->getLx(); j++, pixin++, pixout++)
*pixout = TPixelCM32(1, 0, TPixelGR8::from(*pixin).value);
}
}
//----------------------------------------------------------------------
void Convert2Tlv::buildInksForNAAImage(TRasterCM32P &rout,
const TRaster32P &rin) {
std::map<TPixel, int>::iterator it;
TPixel curColor = TPixel::Transparent;
int i, j;
int curIndex;
// prima passata: identifico i colori di inchiostro e metto in rout i pixel di
// inchiostro puro
for (i = 0; i < rin->getLy(); i++) {
TPixel *pixin = rin->pixels(i);
TPixelCM32 *pixout = rout->pixels(i);
for (j = 0; j < rin->getLx(); j++, pixin++, pixout++) {
TPixel colorIn;
/*- treat white/transparent pixels as transparent -*/
if (*pixin == TPixel(255, 255, 255) || *pixin == TPixel::Transparent) {
*pixout = TPixelCM32(0, 0, 255);
continue;
}
if (curColor != *pixin) {
curColor = *pixin;
if ((it = m_colorMap.find(curColor)) == m_colorMap.end()) {
if (m_lastIndex < 4095) m_colorMap[curColor] = ++m_lastIndex;
curIndex = m_lastIndex;
} else
curIndex = it->second;
}
*pixout = TPixelCM32(curIndex, 0, 0);
}
}
if (m_colorMap.empty()) m_colorMap[TPixel::Black] = ++m_lastIndex;
}
//----------------------------------------------
void Convert2Tlv::doFill(TRasterCM32P &rout, const TRaster32P &rin) {
// prima passata: si filla solo partendo da pixel senza inchiostro, senza
// antialiasing(tone==255)
for (int i = 0; i < rin->getLy(); i++) {
TPixel *pixin = rin->pixels(i);
TPixelCM32 *pixout = rout->pixels(i);
for (int j = 0; j < rin->getLx(); j++, pixin++, pixout++) {
if (!(pixout->getTone() == 255 && pixout->getPaint() == 0 &&
pixin->m == 255))
continue;
std::map<TPixel, int>::const_iterator it;
int paintIndex;
if ((it = m_colorMap.find(*pixin)) == m_colorMap.end()) {
if (m_colorTolerance > 0) it = findNearestColor(*pixin);
// if (it==colorMap.end() && (int)colorMap.size()>origColorCount) //se
// non l'ho trovato tra i colori origari, lo cerco in quelli nuovi, ma
// in questo caso deve essere esattamente uguale(tolerance = 0)
// it = findNearestColor(*pixin, colorMap, colorTolerance,
// origColorCount, colorMap.size()-1);
if (it == m_colorMap.end() && m_lastIndex < 4096) {
m_colorMap[*pixin] = ++m_lastIndex;
paintIndex = m_lastIndex;
} else if (it != m_colorMap.end()) {
m_colorMap[*pixin] = it->second;
paintIndex = it->second;
}
} else
paintIndex = it->second;
FillParameters params;
params.m_p = TPoint(j, i);
params.m_styleId = paintIndex;
params.m_emptyOnly = true;
fill(rout, params);
// if (*((ULONG *)rout->getRawData())!=0xff)
// {
// int cavolo=0;
// }
}
}
// seconda passata: se son rimasti pixel antialiasati non fillati, si fillano,
// cercando nelle vicinanze un pixel di paint puro per capire il colore da
// usare
for (int i = 0; i < rin->getLy(); i++) {
TPixel *pixin = rin->pixels(i);
TPixelCM32 *pixout = rout->pixels(i);
for (int j = 0; j < rin->getLx(); j++, pixin++, pixout++) {
if (!(pixout->getTone() > 0 && pixout->getTone() < 255 &&
pixout->getPaint() == 0 && pixin->m == 255))
continue;
TPoint p = getClosestPurePaint(rout, i, j);
if (p.x == -1) continue;
// pixout->setPaint( paintIndex);
FillParameters params;
params.m_p = TPoint(j, i);
params.m_styleId = (rout->pixels(p.y) + p.x)->getPaint();
params.m_emptyOnly = true;
fill(rout, params);
}
}
// infine, si filla di trasparente lo sfondo, percorrendo il bordo, nel caso
// di trasbordamenti di colore
TPixelCM32 *pixCm;
TPixel *pix;
pixCm = rout->pixels(0);
pix = rin->pixels(0);
FillParameters params;
params.m_styleId = 0;
for (int i = 0; i < rout->getLx(); i++, pixCm++, pix++)
if (pixCm->getTone() == 255 && pixCm->getPaint() != 0 && pix->m == 0) {
params.m_p = TPoint(i, 0);
fill(rout, params);
}
pixCm = rout->pixels(rout->getLy() - 1);
pix = rin->pixels(rout->getLy() - 1);
for (int i = 0; i < rout->getLx(); i++, pixCm++, pix++)
if (pixCm->getTone() == 255 && pixCm->getPaint() != 0 && pix->m == 0) {
params.m_p = TPoint(i, rout->getLy() - 1);
fill(rout, params);
}
int wrapCM = rout->getWrap();
int wrap = rin->getWrap();
pixCm = rout->pixels(0);
pix = rin->pixels(0);
for (int i = 0; i < rin->getLy(); i++, pixCm += wrapCM, pix += wrap)
if (pixCm->getTone() == 255 && pixCm->getPaint() != 0 && pix->m == 0) {
params.m_p = TPoint(0, i);
fill(rout, params);
}
pixCm = rout->pixels(0) + rout->getLx() - 1;
pix = rin->pixels(0) + rin->getLx() - 1;
for (int i = 0; i < rin->getLy(); i++, pixCm += wrapCM, pix += wrap)
if (pixCm->getTone() == 255 && pixCm->getPaint() != 0 && pix->m == 0) {
params.m_p = TPoint(rout->getLx() - 1, i);
fill(rout, params);
}
}
//----------------------------------------------
void Convert2Tlv::buildToonzRaster(TRasterCM32P &rout, const TRasterP &rin1,
const TRasterP &rin2) {
if (rin2) assert(rin1->getSize() == rin2->getSize());
rout->clear();
std::cout << " computing inks...\n";
TRaster32P r1 = (TRaster32P)rin1;
TRasterGR8P r1gr = (TRasterGR8P)rin1;
TRaster32P r2 = (TRaster32P)rin2;
TRasterGR8P r2gr = (TRasterGR8P)rin2;
TRasterP rU, rP;
if (r1gr) {
rU = r1gr;
rP = r2;
} else if (r2gr) {
rU = r2gr;
rP = r1;
} else if (!r1)
rU = r2;
else if (!r2)
rU = r1;
else if (firstIsUnpainted(r1, r2)) {
rU = r1;
rP = r2;
} else {
rU = r2;
rP = r1;
}
TRasterCM32P r;
if (rout->getSize() != rU->getSize()) {
int dx = rout->getLx() - rU->getLx();
int dy = rout->getLy() - rU->getLy();
assert(dx >= 0 && dy >= 0);
r = rout->extract(dx / 2, dy / 2, dx / 2 + rU->getLx() - 1,
dy / 2 + rU->getLy() - 1);
} else
r = rout;
if ((TRasterGR8P)rU)
buildInksFromGrayTones(r, rU);
else if (m_isUnpaintedFromNAA)
buildInksForNAAImage(r, (TRaster32P)rU);
else {
int maxMatte = getMaxMatte((TRaster32P)rU);
if (maxMatte == -1)
buildInksFromGrayTones(r, rU);
else {
if (maxMatte < 255) normalize(rU, maxMatte);
buildInks(r, (TRaster32P)rU /*rP,*/);
}
}
if (m_autoclose)
TAutocloser(r, AutocloseDistance, AutocloseAngle, 1, AutocloseOpacity)
.exec();
if (rP) {
std::cout << " computing paints...\n";
doFill(r, rP);
}
if (m_antialiasType == 2) // remove antialias
removeAntialias(r);
else if (m_antialiasType == 1) // add antialias
{
TRasterCM32P raux(r->getSize());
TRop::antialias(r, raux, 10, m_antialiasValue);
rout = raux;
}
}
//----------------------------------------------
TPalette *Convert2Tlv::buildPalette() {
std::map<TPixel, int>::const_iterator it = m_colorMap.begin();
TPalette::Page *page = m_palette->getPage(0);
QList<int> stylesToBeAddedToPage;
for (; it != m_colorMap.end(); ++it) {
if (it->second >
m_maxPaletteIndex) // colore nuovo da aggiungere alla paletta)
{
if (m_palette->getStyleCount() > it->second)
m_palette->setStyle(it->second, it->first);
else {
while (m_palette->getStyleCount() < it->second)
m_palette->addStyle(TPixel::Transparent);
int id = m_palette->addStyle(it->first);
assert(id == it->second);
}
}
if (!m_palette->getStylePage(it->second))
stylesToBeAddedToPage.push_back(it->second);
}
/*- インデックス順にページに格納する -*/
if (!stylesToBeAddedToPage.isEmpty()) {
qSort(stylesToBeAddedToPage.begin(), stylesToBeAddedToPage.end());
for (int s = 0; s < stylesToBeAddedToPage.size(); s++)
page->addStyle(stylesToBeAddedToPage.at(s));
}
/*
If the palette path is empty, an initial palette with four colors are set in
the palette here.
( see Convert2Tlv::init() ) So here I make the latter three styles in the
initial palette to set
"AutoPaint" options.
*/
if (m_palettePath.isEmpty()) {
assert(m_palette->getStyleCount() >= 5);
for (int id = 2; id <= 4; id++) m_palette->getStyle(id)->setFlags(1);
}
if (!m_appendDefaultPalette) return m_palette;
/*-- Adding styles in the default palette to the result palette, starts here
* --*/
TFilePath palettePath =
ToonzFolder::getStudioPaletteFolder() + "cleanup_default.tpl";
TFileStatus pfs(palettePath);
if (!pfs.doesExist() || !pfs.isReadable()) return m_palette;
TIStream is(palettePath);
if (!is) return m_palette;
std::string tagName;
if (!is.matchTag(tagName) || tagName != "palette") return m_palette;
std::string gname;
is.getTagParam("name", gname);
TPalette *defaultPalette = new TPalette();
defaultPalette->loadData(is);
m_palette->setIsCleanupPalette(false);
TPalette::Page *dstPage = m_palette->getPage(0);
TPalette::Page *srcPage = defaultPalette->getPage(0);
for (int srcIndexInPage = 0; srcIndexInPage < srcPage->getStyleCount();
srcIndexInPage++) {
int id = srcPage->getStyleId(srcIndexInPage);
bool isUsedInDstPalette = false;
for (int dstIndexInPage = 0; dstIndexInPage < dstPage->getStyleCount();
dstIndexInPage++) {
if (dstPage->getStyleId(dstIndexInPage) == id) {
isUsedInDstPalette = true;
break;
}
}
if (isUsedInDstPalette)
continue;
else {
int addedId =
m_palette->addStyle(srcPage->getStyle(srcIndexInPage)->clone());
dstPage->addStyle(addedId);
/*-- StudioPalette由来のDefaultPaletteの場合、GrobalNameを消去する --*/
m_palette->getStyle(addedId)->setGlobalName(L"");
m_palette->getStyle(addedId)->setOriginalName(L"");
}
}
delete defaultPalette;
/*-- Adding styles in the default palette to the result palette, ends here
* --*/
return m_palette;
}
//------------------------------------------------------------------------------
Convert2Tlv::Convert2Tlv(const TFilePath &filepath1, const TFilePath &filepath2,
const TFilePath &outFolder, const QString &outName,
int from, int to, bool doAutoclose,
const TFilePath &palettePath, int colorTolerance,
int antialiasType, int antialiasValue,
bool isUnpaintedFromNAA, bool appendDefaultPalette,
double dpi)
: m_size(0, 0)
, m_level1()
, m_levelIn1()
, m_levelIn2()
, m_levelOut()
, m_autoclose(doAutoclose)
, m_premultiply(false)
, m_count(0)
, m_from(from)
, m_to(to)
, m_palettePath(palettePath)
, m_colorTolerance(colorTolerance)
, m_palette(0)
, m_antialiasType(antialiasType)
, m_antialiasValue(antialiasValue)
, m_isUnpaintedFromNAA(isUnpaintedFromNAA)
, m_appendDefaultPalette(appendDefaultPalette)
, m_dpi(dpi) {
if (filepath1 != TFilePath()) {
m_levelIn1 = filepath1.getParentDir() + filepath1.getLevelName();
if (outFolder != TFilePath())
m_levelOut =
m_levelIn1.withParentDir(outFolder).withNoFrame().withType("tlv");
else
m_levelOut = m_levelIn1.withNoFrame().withType(
"tlv"); // filePaths[0].getParentDir() +
// TFilePath(filePaths[0].getWideName() + L".tlv");
if (outName != "") m_levelOut = m_levelOut.withName(outName.toStdString());
}
if (filepath2 != TFilePath())
m_levelIn2 = filepath2.getParentDir() + filepath2.getLevelName();
}
//-------------------------------------------------------------------------------------
int Convert2Tlv::getFramesToConvertCount() {
if (m_level1 && m_level1->getFrameCount() > 0)
return getFramesCount(m_level1, m_from,
m_to); // m_level1->getFrameCount();
else {
try {
TLevelReaderP lr = TLevelReaderP(m_levelIn1);
if (lr) {
TLevelP l = lr->loadInfo();
if (l) {
return getFramesCount(l, m_from, m_to);
}
}
} catch (...) {
return 0;
}
}
return 0;
}
//---------------------------------------------
bool Convert2Tlv::init(std::string &errorMessage) {
m_lastIndex = m_maxPaletteIndex = 0;
m_colorMap.clear();
try {
m_lr1 = TLevelReaderP(m_levelIn1);
if (m_lr1) m_level1 = m_lr1->loadInfo();
} catch (...) {
errorMessage =
"Error: can't read level " + ::to_string(m_levelIn1.getWideString());
return false;
}
if (m_level1->getFrameCount() == 0) {
errorMessage =
"Error: can't find level " + ::to_string(m_levelIn1.getWideString());
return false;
}
TLevelP level2;
if (m_levelIn2 != TFilePath()) {
try {
m_lr2 = TLevelReaderP(m_levelIn2);
if (m_lr2) level2 = m_lr2->loadInfo();
} catch (...) {
errorMessage =
"Error: can't read level " + ::to_string(m_levelIn2.getWideString());
return false;
}
if (level2->getFrameCount() == 0) {
errorMessage =
"Error: can't find level " + ::to_string(m_levelIn2.getWideString());
return false;
}
if (m_level1->getFrameCount() != level2->getFrameCount()) {
errorMessage = "Error: the two input levels must have same frame number";
return false;
}
}
m_size = TDimension();
m_lw = TLevelWriterP(m_levelOut);
m_it = m_level1->begin();
TLevel::Iterator it2;
if (level2->getFrameCount() > 0) it2 = level2->begin();
for (; m_it != m_level1->end(); ++m_it) {
TImageReaderP ir1 = m_lr1->getFrameReader(m_it->first);
const TImageInfo *info1 = ir1->getImageInfo();
if (!info1) {
errorMessage = "Error: can't read frame " +
std::to_string(m_it->first.getNumber()) + " of level " +
::to_string(m_levelIn1.getWideString());
return false;
}
if (info1->m_bitsPerSample != 8) {
errorMessage = "Error: all frames must have 8 bits per channel!\n";
return false;
}
m_size.lx = std::max(m_size.lx, info1->m_lx);
m_size.ly = std::max(m_size.ly, info1->m_ly);
if (m_lr2 != TLevelReaderP()) {
TImageReaderP ir2 = m_lr2->getFrameReader(it2->first);
if (ir2) {
const TImageInfo *info2 = ir2->getImageInfo();
if (!info1) {
errorMessage = "Error: can't read frame " +
std::to_string(it2->first.getNumber()) +
" of level " +
::to_string(m_levelIn2.getWideString());
;
return false;
}
if (info1->m_lx != info2->m_lx || info1->m_ly != info2->m_ly) {
errorMessage =
"Error: painted frames must have same resolution of matching "
"unpainted frames!\n";
return false;
}
if (info2->m_bitsPerSample != 8) {
errorMessage = "Error: all frames must have 8 bits per channel!\n";
return false;
}
}
++it2;
}
}
m_palette = new TPalette();
if (m_palettePath != TFilePath()) {
TIStream is(m_palettePath);
is >> m_palette;
if (m_palette->getStyleInPagesCount() == 0) {
errorMessage = "Error: invalid palette!\n";
return false;
}
for (int i = 0; i < m_palette->getStyleCount(); i++)
if (m_palette->getStylePage(i)) {
m_colorMap[m_palette->getStyle(i)->getMainColor()] = i;
if (i > m_lastIndex) m_lastIndex = i;
}
assert(m_colorMap.size() == m_palette->getStyleInPagesCount());
}
m_maxPaletteIndex = m_lastIndex;
m_it = m_level1->begin();
/*-
If the palette is empty, make an initial palette with black, red, blue and
green styles.
For the latter three styles the "autopaint" option should be set.
-*/
if (m_lastIndex == 0) {
m_colorMap[TPixel::Black] = ++m_lastIndex;
m_colorMap[TPixel::Red] = ++m_lastIndex;
m_colorMap[TPixel::Blue] = ++m_lastIndex;
m_colorMap[TPixel::Green] = ++m_lastIndex;
}
return true;
}
//----------------------------------------------------------------------------------------
bool Convert2Tlv::convertNext(std::string &errorMessage) {
if (m_count == 0 && m_from != -1)
while (m_it != m_level1->end() && m_it->first.getNumber() < m_from) m_it++;
std::cout << "Processing image " << ++m_count << " of "
<< getFramesCount(m_level1, m_from, m_to) << "...\n";
std::cout << " Loading frame " << m_it->first.getNumber() << "...\n";
TImageReaderP ir1 = m_lr1->getFrameReader(m_it->first);
TRasterImageP imgIn1 = (TRasterImageP)ir1->load();
if (!imgIn1) {
errorMessage = "Error: cannot read frame" +
std::to_string(m_it->first.getNumber()) + " of " +
::to_string(m_levelIn1.getWideString()) + "!";
return false;
}
TRasterP rin1 = imgIn1->getRaster();
assert((TRaster32P)rin1 || (TRasterGR8P)rin1);
TRasterP rin2;
TRasterImageP imgIn2;
if (m_lr2) {
TImageReaderP ir2 = m_lr2->getFrameReader(m_it->first);
imgIn2 = (TRasterImageP)ir2->load();
if (!imgIn2) {
errorMessage = "Error: cannot read frame " +
std::to_string(m_it->first.getNumber()) + " of " +
::to_string(m_levelIn2.getWideString()) + "!";
return false;
}
rin2 = imgIn2->getRaster();
assert((TRaster32P)rin2 || (TRasterGR8P)rin2);
}
TRasterCM32P rout(m_size);
buildToonzRaster(rout, rin1, rin2);
std::cout << " saving frame in level \'" << m_levelOut.getLevelName()
<< "\'...\n\n";
TImageWriterP iw = m_lw->getFrameWriter(m_it->first);
TToonzImageP timg = TToonzImageP(rout, rout->getBounds());
TRect bbox;
TRop::computeBBox(rout, bbox);
timg->setSavebox(bbox);
if (m_dpi > 0.0) // specify dpi in the convert popup
timg->setDpi(m_dpi, m_dpi);
else {
double dpix, dpiy;
imgIn1->getDpi(dpix, dpiy);
timg->setDpi(dpix, dpiy);
}
TLevel::Iterator itaux = m_it;
itaux++;
if (itaux == m_level1->end()) // ultimo frame da scrivere.
timg->setPalette(buildPalette());
iw->save(timg);
++m_it;
return true;
}
//----------------------------------------------------------------------------------------------
bool Convert2Tlv::abort() {
try {
m_lr1 = TLevelReaderP();
m_lr2 = TLevelReaderP();
m_lw = TLevelWriterP();
m_level1 = TLevelP();
std::cout << "No output generated\n";
TSystem::deleteFile(m_levelOut);
TSystem::deleteFile(m_levelOut.withType("tpl"));
return false;
} catch (...) {
return false;
}
}
//==============================================================================================
//
// RasterToToonzRasterConverter
//
//----------------------------------------------------------------------------------------------
RasterToToonzRasterConverter::RasterToToonzRasterConverter() {
m_palette = new TPalette();
}
RasterToToonzRasterConverter::~RasterToToonzRasterConverter() {}
void RasterToToonzRasterConverter::setPalette(const TPaletteP &palette) {
m_palette = palette;
}
TRasterCM32P RasterToToonzRasterConverter::convert(
const TRasterP &inputRaster) {
int lx = inputRaster->getLx();
int ly = inputRaster->getLy();
TRaster32P r = inputRaster;
/*
TRasterGR8P r1gr = (TRasterGR8P)inputRaster;
TRasterP rU, rP;
*/
TRasterCM32P rout(lx, ly);
for (int y = 0; y < ly; y++) {
TPixel32 *pixin = r->pixels(y);
TPixel32 *pixinEnd = pixin + lx;
TPixelCM32 *pixout = rout->pixels(y);
while (pixin < pixinEnd) {
int v = (pixin->r + pixin->g + pixin->b) / 3;
++pixin;
*pixout++ = TPixelCM32(1, 0, v);
}
}
return rout;
}
TRasterCM32P RasterToToonzRasterConverter::convert(
const TRasterP &inksInputRaster, const TRasterP &paintInputRaster) {
return TRasterCM32P();
}
TToonzImageP RasterToToonzRasterConverter::convert(const TRasterImageP &ri) {
TRasterCM32P ras = convert(ri->getRaster());
if (ras)
return TToonzImageP(ras, TRect(ras->getBounds()));
else
return TToonzImageP();
}