// TnzCore includes
#include "tsystem.h"
#include "timage_io.h"
#include "trop.h"
#include "tconvert.h"
#include "tvectorimage.h"
#include "ttoonzimage.h"
#include "tproperty.h"
#include "trasterimage.h"
#include "tiio.h"
#include "tfilepath_io.h"
// boost includes
#include <boost/range.hpp>
#ifdef _MSC_VER
#pragma warning(disable : 4996)
#endif
// OS-specific includes
#ifdef _WIN32
#include <io.h>
#endif
#ifdef LINUX
#include <unistd.h>
#endif
// System V includes
#include <fcntl.h> // didn't even know Windows had them :D
#include <sys/stat.h> // btw, why are they here?
DEFINE_CLASS_CODE(TImageReader, 5)
DEFINE_CLASS_CODE(TImageWriter, 6)
//-----------------------------------------------------------
std::map<QString, TImageReaderCreateProc *> ImageReaderTable;
std::map<QString, std::pair<TImageWriterCreateProc *, bool>> ImageWriterTable;
//-----------------------------------------------------------
bool TImageReader::m_safeMode = false;
//-----------------------------------------------------------
TImageReader::TImageReader(const TFilePath &path)
: TSmartObject(m_classCode)
, m_path(path)
, m_reader(0)
, m_vectorReader(0)
, m_readGreytones(true)
, m_file(NULL)
, m_is64BitEnabled(false)
, m_shrink(1)
, m_region(TRect()) {}
//-----------------------------------------------------------
void TImageReader::doReadGraytones(bool readThem) {
m_readGreytones = readThem;
}
//-----------------------------------------------------------
TImageReader::~TImageReader() { close(); }
//-----------------------------------------------------------
bool TImageReader::isOpen() const { return m_file != NULL; }
//-----------------------------------------------------------
void TImageReader::close() {
delete m_reader;
delete m_vectorReader;
if (m_file != NULL) {
int err = 0;
err = fclose(m_file);
assert(err == 0); // il file e' stato chiuso senza errori
}
m_file = NULL;
m_reader = 0;
m_vectorReader = 0;
}
//-----------------------------------------------------------
/*!
Opens for reading using \b fopen().
*/
void TImageReader::getTzpPaletteColorNames(
std::map<int, std::pair<std::string, std::string>> &pltColorNames) {
if (!m_file) open();
if (!m_file) return;
assert(m_reader);
m_reader->getTzpPaletteColorNames(pltColorNames);
}
//-----------------------------------------------------------
void TImageReader::open() {
assert(m_file == NULL);
std::string type = toLower(m_path.getType());
m_file = fopen(m_path, "rb"); // Opens for reading. If the file does not
// exist or cannot be found, the fopen_s call
// fails
if (m_file == NULL) // Non dovrebbe mai andarci!
close(); // close() chiude il file se e' aperto e setta m_file a NULL.
else {
try {
m_reader = Tiio::makeReader(type);
if (m_reader)
m_reader->open(m_file);
else {
m_vectorReader = Tiio::makeVectorReader(type);
if (m_vectorReader)
m_vectorReader->open(m_file);
else
throw TImageException(m_path, "Image format not supported");
}
} catch (TException &e) {
close(); // close() chiude il file e setta m_file a NULL.
QString msg = QString::fromStdWString(e.getMessage());
if (msg == QString("Old 4.1 Palette")) throw e;
} catch (std::string str) {
if (str == "Tiff file closed") m_file = NULL;
}
}
}
//===========================================================
void TImageReader::setShrink(int shrink) { m_shrink = shrink; }
//-----------------------------------------------------------
TImageReaderP::TImageReaderP(const TFilePath &path) {
m_pointer = new TImageReader(path);
m_pointer->addRef();
m_pointer->open();
}
//-----------------------------------------------------------
TImageP TImageReader::load() {
TImageP image = load0();
if (!image) return TImageP();
TImageInfo info = m_reader->getImageInfo();
if (info.m_lx <= 0 || info.m_ly <= 0) return TImageP();
return image;
}
//============================================================
template <typename Pix>
struct pixel_traits {};
template <>
struct pixel_traits<TPixel32> {
typedef TPixel32 rgbm_pixel_type;
typedef char buffer_type;
};
template <>
struct pixel_traits<TPixel64> {
typedef TPixel64 rgbm_pixel_type;
typedef short buffer_type;
};
template <>
struct pixel_traits<TPixelGR8> {
typedef TPixel32 rgbm_pixel_type;
typedef char buffer_type;
};
template <>
struct pixel_traits<TPixelGR16> {
typedef TPixel64 rgbm_pixel_type;
typedef short buffer_type;
};
template <>
struct pixel_traits<TPixelCM32> {
typedef TPixel32 rgbm_pixel_type;
typedef char buffer_type;
};
//------------------------------------------------------------------------------------
template <typename Pix>
void copyLine(typename pixel_traits<Pix>::rgbm_pixel_type *lineIn, Pix *lineOut,
int x0, int length, int shrink) {
lineIn += x0;
for (int i = 0; i < length; ++i, lineIn += shrink, ++lineOut)
memcpy(lineOut, lineIn, sizeof(Pix));
}
template <>
void copyLine<TPixelGR8>(TPixel32 *lineIn, TPixelGR8 *lineOut, int x0,
int length, int shrink) {
lineIn += x0;
for (int i = 0; i < length; ++i, lineIn += shrink, ++lineOut)
lineOut->value = lineIn->r;
}
template <>
void copyLine<TPixelGR16>(TPixel64 *lineIn, TPixelGR16 *lineOut, int x0,
int length, int shrink) {
lineIn += x0;
for (int i = 0; i < length; ++i, lineIn += shrink, ++lineOut)
lineOut->value = lineIn->r;
}
//------------------------------------------------------------------------------------
template <typename Pix>
void readRaster_copyLines(const TRasterPT<Pix> &ras, Tiio::Reader *reader,
int x0, int y0, int x1, int y1, int inLx, int inLy,
int shrink) {
typedef typename pixel_traits<Pix>::buffer_type buffer_type;
typedef typename pixel_traits<Pix>::rgbm_pixel_type rgbm_pixel_type;
int linesToSkip = shrink - 1;
buffer_type *lineBuffer =
(buffer_type *)malloc(inLx * sizeof(rgbm_pixel_type));
if (!lineBuffer) return;
rgbm_pixel_type *lineIn = (rgbm_pixel_type *)lineBuffer;
if (reader->getRowOrder() == Tiio::BOTTOM2TOP) {
int start = reader->skipLines(y0);
int stop = y1 + 1;
for (int y = start; y < stop; ++y) {
reader->readLine(lineBuffer, x0, x1, shrink);
if (y >= y0 && y <= y1 && (y - y0) % shrink == 0) {
Pix *line = (Pix *)ras->getRawData(0, (y - y0) / shrink);
copyLine<Pix>(lineIn, line, x0, ras->getLx(), shrink);
}
if (linesToSkip > 0 && y + linesToSkip < inLy)
y += reader->skipLines(linesToSkip);
}
} else // TOP2BOTTOM
{
reader->skipLines(inLy - y1 - 1);
for (int y = y1; y >= y0; --y) {
reader->readLine(lineBuffer, x0, x1, shrink);
if ((y - y0) % shrink == 0) {
Pix *line = (Pix *)ras->getRawData(0, (y - y0) / shrink);
copyLine<Pix>(lineIn, line, x0, ras->getLx(), shrink);
}
if (linesToSkip > 0 && y - linesToSkip > 0)
y -= reader->skipLines(linesToSkip);
}
}
free(lineBuffer);
}
//------------------------------------------------------------------------------------
template <typename Pix>
void readRaster(const TRasterPT<Pix> &ras, Tiio::Reader *reader, int x0, int y0,
int x1, int y1, int inLx, int inLy, int shrink) {
typedef typename pixel_traits<Pix>::buffer_type buffer_type;
if (shrink == 1) {
// Direct read
ras->lock();
ptrdiff_t linePad = -x0 * ras->getPixelSize();
if (reader->getRowOrder() == Tiio::BOTTOM2TOP) {
int start = reader->skipLines(y0);
int stop = y1 + 1;
for (int y = start; y < stop; ++y)
if (y >= y0 && y <= y1) {
buffer_type *line =
(buffer_type *)(ras->getRawData(0, y - y0) + linePad);
reader->readLine(line, x0, x1, 1);
}
} else // TOP2BOTTOM
{
reader->skipLines(inLy - y1 - 1);
for (int y = y1; y >= y0; --y) {
buffer_type *line =
(buffer_type *)(ras->getRawData(0, y - y0) + linePad);
reader->readLine(line, x0, x1, 1);
}
}
ras->unlock();
} else
readRaster_copyLines(ras, reader, x0, y0, x1, y1, inLx, inLy, shrink);
}
//------------------------------------------------------------------------------------
TImageP TImageReader::load0() {
if (!m_reader && !m_vectorReader) open();
if (m_reader) {
TImageInfo info = m_reader->getImageInfo();
if (info.m_lx <= 0 || info.m_ly <= 0) return TImageP();
// Initialize raster info
assert(m_shrink > 0);
// Build loading rect
int x0 = 0;
int x1 = info.m_lx - 1;
int y0 = 0;
int y1 = info.m_ly - 1;
if (!m_region.isEmpty()) {
// Intersect with the externally specified loading region
x0 = std::max(x0, m_region.x0);
y0 = std::max(y0, m_region.y0);
x1 = std::min(x1, m_region.x1);
y1 = std::min(y1, m_region.y1);
if (x0 >= x1 || y0 >= y1) return TImageP();
}
if (m_shrink > 1) {
// Crop to shrink multiples
x1 -= (x1 - x0) % m_shrink;
y1 -= (y1 - y0) % m_shrink;
}
assert(x0 <= x1 && y0 <= y1);
TDimension imageDimension =
TDimension((x1 - x0) / m_shrink + 1, (y1 - y0) / m_shrink + 1);
if (m_path.getType() == "tzp" || m_path.getType() == "tzu") {
// Colormap case
TRasterCM32P ras(imageDimension);
readRaster(ras, m_reader, x0, y0, x1, y1, info.m_lx, info.m_ly, m_shrink);
// Build the savebox
TRect saveBox(info.m_x0, info.m_y0, info.m_x1, info.m_y1);
if (!m_region.isEmpty()) {
// Intersect with the loading rect
if (m_region.overlaps(saveBox)) {
saveBox *= m_region;
int sbx0 = saveBox.x0 - m_region.x0;
int sby0 = saveBox.y0 - m_region.y0;
int sbx1 = sbx0 + saveBox.getLx() - 1;
int sby1 = sby0 + saveBox.getLy() - 1;
assert(sbx0 >= 0);
assert(sby0 >= 0);
assert(sbx1 >= 0);
assert(sby1 >= 0);
saveBox = TRect(sbx0, sby0, sbx1, sby1);
} else
saveBox = TRect(0, 0, 1, 1);
}
if (m_shrink > 1) {
saveBox.x0 = saveBox.x0 / m_shrink;
saveBox.y0 = saveBox.y0 / m_shrink;
saveBox.x1 = saveBox.x1 / m_shrink;
saveBox.y1 = saveBox.y1 / m_shrink;
}
TToonzImageP ti(ras, ras->getBounds() * saveBox);
ti->setDpi(info.m_dpix, info.m_dpiy);
return ti;
} else if (info.m_bitsPerSample >= 8) {
// Common byte-based rasters (see below, we have black-and-white bit-based
// images too)
if (info.m_samplePerPixel == 1 && m_readGreytones) {
// Greymap case
// NOTE: Uses a full 32-bit raster first, and then copies down to the
// GR8
// Observe that GR16 file images get immediately down-cast to GR8...
// Should we implement that too?
TRasterGR8P ras(imageDimension);
readRaster_copyLines(ras, m_reader, x0, y0, x1, y1, info.m_lx,
info.m_ly, m_shrink);
TRasterImageP ri(ras);
ri->setDpi(info.m_dpix, info.m_dpiy);
return ri;
}
// assert(info.m_samplePerPixel == 3 || info.m_samplePerPixel == 4);
TRasterP _ras;
if (info.m_bitsPerSample == 16) {
if (m_is64BitEnabled || m_path.getType() != "tif") {
// Standard 64-bit case.
// Also covers down-casting to 32-bit from a 64-bit image file
// whenever
// not a tif file (see below).
TRaster64P ras(imageDimension);
readRaster(ras, m_reader, x0, y0, x1, y1, info.m_lx, info.m_ly,
m_shrink);
_ras = ras;
} else {
// The Tif reader has got an automatically down-casting
// readLine(char*, ...)
// in case the input file is 64-bit. The advantage is that no
// intermediate
// 64-bit raster is required in this case.
TRaster32P ras(imageDimension);
readRaster(ras, m_reader, x0, y0, x1, y1, info.m_lx, info.m_ly,
m_shrink);
_ras = ras;
}
} else if (info.m_bitsPerSample == 8) {
// Standard 32-bit case
TRaster32P ras(imageDimension);
readRaster(ras, m_reader, x0, y0, x1, y1, info.m_lx, info.m_ly,
m_shrink);
_ras = ras;
} else
throw TImageException(m_path, "Image format not supported");
// 64-bit to 32-bit conversions if necessary (64 bit images not allowed)
if (!m_is64BitEnabled && (TRaster64P)_ras) {
TRaster32P raux(_ras->getLx(), _ras->getLy());
TRop::convert(raux, _ras);
_ras = raux;
}
// Return the image
TRasterImageP ri(_ras);
ri->setDpi(info.m_dpix, info.m_dpiy);
return ri;
} else if (info.m_samplePerPixel == 1 && info.m_valid == true) {
// Previously dubbed as 'Palette cases'. No clue about what is this... :|
TRaster32P ras(imageDimension);
readRaster(ras, m_reader, x0, y0, x1, y1, info.m_lx, info.m_ly, m_shrink);
TRasterImageP ri(ras);
ri->setDpi(info.m_dpix, info.m_dpiy);
return ri;
} else if (info.m_samplePerPixel == 1 && m_readGreytones) {
// Black-and-White case, I guess. Standard greymaps were considered
// above...
TRasterGR8P ras(imageDimension);
readRaster_copyLines(ras, m_reader, x0, y0, x1, y1, info.m_lx, info.m_ly,
m_shrink);
TRasterImageP ri(ras);
ri->setDpi(info.m_dpix, info.m_dpiy);
if (info.m_bitsPerSample == 1) // I suspect this always evaluates true...
ri->setScanBWFlag(true);
return ri;
} else
return TImageP();
} else if (m_vectorReader) {
TVectorImage *vi = m_vectorReader->read();
return TVectorImageP(vi);
} else
return TImageP();
}
//-----------------------------------------------------------
TImageWriter::TImageWriter(const TFilePath &path)
: TSmartObject(m_classCode)
, m_path(path)
, m_writer(0)
, m_vectorWriter(0)
, m_properties(0) {}
//-----------------------------------------------------------
TImageWriter::~TImageWriter() {
delete m_writer;
delete m_vectorWriter;
delete m_properties;
}
//-----------------------------------------------------------
void TImageWriter::setProperties(const TPropertyGroup *g) {
if (m_properties) {
assert(m_properties != g);
delete m_properties;
}
m_properties = g ? g->clone() : 0;
}
//-----------------------------------------------------------
static void convertForWriting(TRasterP &ras, const TRasterP &rin, int bpp) {
switch (bpp) {
case 1:
case 8:
ras = TRasterGR8P(rin->getSize());
TRop::convert(ras, rin);
break;
case 24:
case 32:
ras = TRaster32P(rin->getSize());
TRop::convert(ras, rin);
break;
case 48:
case 64:
ras = TRaster64P(rin->getSize());
TRop::convert(ras, rin);
break;
default:
assert(false);
}
}
//-----------------------------------------------------------
void TImageWriter::save(const TImageP &img) {
const std::string &type = toLower(m_path.getType());
Tiio::Writer *writer = Tiio::makeWriter(type);
if (!writer)
throw TImageException(m_path, "unsupported format for raster images");
writer->setProperties(m_properties);
FILE *file = fopen(m_path, "wb");
if (file == NULL) throw TImageException(m_path, "Can't write file");
if (TRasterImageP ri = img) {
TImageInfo info;
TRasterP ras;
TRasterGR8P rasGr = ri->getRaster();
TRaster32P ras32 = ri->getRaster();
TRaster64P ras64 = ri->getRaster();
TEnumProperty *p =
m_properties
? (TEnumProperty *)m_properties->getProperty("Bits Per Pixel")
: 0;
if (p && ri->isScanBW()) {
const std::vector<std::wstring> &range = p->getRange();
p->setValue(range[2]); // Horrible. See tiio_tif.cpp (732 or near) -.-'
}
int bpp = p ? std::stoi(p->getValue()) : 32;
// bpp 1 8 16 24 32 40 48 56 64
int spp[] = {
1, 1, 1, 4, 4,
0, 4, 0, 4}; // 0s are for pixel sizes which are normally unsupported
int bps[] = {
1, 8, 16, 8, 8,
0, 16, 0, 16}; // by image formats, let alone by Toonz raster ones.
// The 24 and 48 cases get automatically promoted to 32 and 64.
int bypp = bpp / 8;
assert(bypp < boost::size(spp) && spp[bypp] && bps[bypp]);
info.m_samplePerPixel = spp[bypp];
info.m_bitsPerSample = bps[bypp];
if (rasGr) {
if (bypp < 2) // Seems 16 bit greymaps are not handled... why?
ras = rasGr; // we do have a Toonz raster for those... >:|
else
convertForWriting(ras, rasGr, bpp);
} else if (ras32) {
if (bpp == 32 || bpp == 24)
ras = ras32;
else
convertForWriting(ras, ras32, bpp);
} else if (ras64) {
if (bpp == 64 || bpp == 48)
ras = ras64;
else
convertForWriting(ras, ras64, bpp);
} else {
fclose(file);
throw TImageException(m_path, "unsupported raster type");
}
info.m_lx = ras->getLx();
info.m_ly = ras->getLy();
ri->getDpi(info.m_dpix, info.m_dpiy);
if (writer->getProperties() && m_properties)
writer->getProperties()->setProperties(m_properties);
writer->open(file, info);
ras->lock();
if (writer->getRowOrder() == Tiio::BOTTOM2TOP) {
if (bpp == 1 || bpp == 8 || bpp == 24 || bpp == 32 || bpp == 16)
for (int i = 0; i < ras->getLy(); i++)
writer->writeLine((char *)ras->getRawData(0, i));
else
for (int i = 0; i < ras->getLy(); i++)
writer->writeLine((short *)ras->getRawData(0, i));
} else {
if (bpp == 1 || bpp == 8 || bpp == 24 || bpp == 32 || bpp == 16)
for (int i = ras->getLy() - 1; i >= 0; i--)
writer->writeLine((char *)ras->getRawData(0, i));
else
for (int i = ras->getLy() - 1; i >= 0; i--)
writer->writeLine((short *)ras->getRawData(0, i));
}
ras->unlock();
writer->flush();
delete writer;
} else if (TVectorImageP vi = img) {
Tiio::VectorWriter *writer = Tiio::makeVectorWriter(type);
if (!writer) {
fclose(file);
throw TImageException(m_path, "unsupported format for vector images");
}
writer->open(file);
writer->write(vi.getPointer());
delete writer;
} else {
fclose(file);
throw TImageException(m_path, "Can't write file");
}
fclose(file);
}
//-----------------------------------------------------------
TImageWriterP::TImageWriterP(const TFilePath &path) {
m_pointer = new TImageWriter(path);
m_pointer->addRef();
}
//============================================================
//
// Helper functions statiche
//
//============================================================
bool TImageReader::load(const TFilePath &path, TRasterP &raster) {
raster = TRasterP();
TImageReaderP ir(path);
if (!ir) return false;
TImageP img = ir->load();
if (!img) return false;
TRasterImageP ri(img);
if (!ri) return false;
raster = ri->getRaster();
return true;
}
//-----------------------------------------------------------
//-----------------------------------------------------------
void TImageReader::load(const TRasterP &ras, const TPoint &pos, int shrinkX,
int shrinkY) {
TImageP srcImage = load();
TRasterImageP srcRasImage = srcImage;
TRaster32P srcRaster = srcRasImage->getRaster();
/*
TRaster32P clippedRas = srcRaster->extractT
(shrinkX*pos.x, shrinkY*pos.y,
(pos.x + ras->getLx()) * shrinkX - 1, (pos.y + ras->getLy()) * shrinkY - 1);
if (shrinkX != 1 || shrinkY != 1)
{
TRaster32P ras32 = ras;
if (ras32)
ras32->fill(TPixel32::Transparent);
TRop::resample(ras, clippedRas, TScale(1./shrinkX, 1./shrinkY),
TRop::ClosestPixel);
}
else*/
ras->copy(srcRaster);
}
//-----------------------------------------------------------
bool TImageReader::load(const TFilePath &path, TImageP &image) {
image = TImageReaderP(path)->load();
return image;
}
//-----------------------------------------------------------
void TImageWriter::save(const TFilePath &path, TRasterP raster) {
TRasterImageP rasImage(raster);
TImageWriterP(path)->save(TImageP(rasImage));
}
//-----------------------------------------------------------
void TImageWriter::save(const TFilePath &path, const TImageP &image) {
TImageWriterP(path)->save(image);
}
//===========================================================
//
// funzioni per la registrazione dei formati (chiamate dal Plugin)
//
//===========================================================
void TImageReader::define(QString extension, TImageReaderCreateProc *proc) {
ImageReaderTable[extension] = proc;
}
//-----------------------------------------------------------
void TImageWriter::define(QString extension, TImageWriterCreateProc *proc,
bool isRenderFormat) {
ImageWriterTable[extension] =
std::pair<TImageWriterCreateProc *, bool>(proc, isRenderFormat);
}
//-----------------------------------------------------------
void TImageReader::getSupportedFormats(QStringList &names) {
for (std::map<QString, TImageReaderCreateProc *>::iterator it =
ImageReaderTable.begin();
it != ImageReaderTable.end(); ++it) {
names.push_back(it->first);
}
}
//-----------------------------------------------------------
void TImageWriter::getSupportedFormats(QStringList &names,
bool onlyRenderFormat) {
for (std::map<QString, std::pair<TImageWriterCreateProc *, bool>>::iterator
it = ImageWriterTable.begin();
it != ImageWriterTable.end(); ++it) {
if (!onlyRenderFormat || it->second.second) names.push_back(it->first);
}
}
//-----------------------------------------------------------
const TImageInfo *TImageReader::getImageInfo() const {
if (m_reader)
return &(m_reader->getImageInfo());
else
return 0;
}
//-----------------------------------------------------------
//===========================================================
//
// Eccezioni
//
//===========================================================
TImageException::TImageException(const TFilePath &fp, const std::string &msg)
: TException(msg), m_fp(fp) {}
//-----------------------------------------------------------
TString TImageException::getMessage() const {
return m_fp.getWideString() + L": " + TException::getMessage();
}
//===========================================================
TImageVersionException::TImageVersionException(const TFilePath &fp, int major,
int minor)
: TException(
L"The file " + fp.getWideString() +
L" was generated by a newer version of Toonz and cannot be loaded.")
, m_fp(fp)
, m_major(major)
, m_minor(minor) {}