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// TnzCore includes
#include "tcommon.h"

#include "timageinfo.h"
#include "timage_io.h"
#include "tlevel_io.h"

#include "ttoonzimage.h"
#include "tvectorimage.h"
#include "trastercm.h"
#include "tvectorrenderdata.h"
#include "tpalette.h"

#include "tgl.h"
#include "tvectorgl.h"
#include "tofflinegl.h"

#include "timagecache.h"

// TnzLib includes
#include "toonz/txshleveltypes.h"
#include "toonz/levelproperties.h"
#include "toonz/txshsimplelevel.h"
#include "toonz/fill.h"

// Qt includes
#include <QImage>
#include <QThread>
#include <QOpenGLContext>
#include <QOffscreenSurface>
#include <QOpenGLFramebufferObject>

#include "imagebuilders.h"

//***************************************************************************************
//    Global stuff
//***************************************************************************************

extern TOfflineGL *currentOfflineGL;

//***************************************************************************************
//    ImageLoader  implementation
//***************************************************************************************

ImageLoader::ImageLoader(const TFilePath &path, const TFrameId &fid)
    : m_path(path), m_fid(fid), m_subsampling(0), m_64bitCompatible(false) {}

//-------------------------------------------------------------------------

bool ImageLoader::getInfo(TImageInfo &info, int imFlags, void *extData) {
  try {
    TLevelReaderP lr(m_path);
    TImageReaderP fr = lr->getFrameReader(m_fid);

    // NOTE: Currently not changing imageInfo's bpp stuff...
    //       Ignoring subsampling too...

    return ImageBuilder::setImageInfo(info, fr.getPointer());
  } catch (TException &e) {
    QString msg = QString::fromStdWString(e.getMessage());
    if (msg == QString("Old 4.1 Palette")) throw;

    return false;
  }
}

//-------------------------------------------------------------------------

inline int ImageLoader::buildSubsampling(int imFlags, BuildExtData *data) {
  return (imFlags & ImageManager::toBeModified)
             ? 1
             : (data->m_subs > 0)
                   ? data->m_subs
                   : (m_subsampling > 0)
                         ? m_subsampling
                         : data->m_sl->getProperties()->getSubsampling();
}

//-------------------------------------------------------------------------

TImageP ImageLoader::build(int imFlags, void *extData) {
  assert(extData);

  // Extract external data
  BuildExtData *data = static_cast<BuildExtData *>(extData);

  int subsampling = buildSubsampling(imFlags, data);

  try {
    // Initialize level reader
    TLevelReaderP lr(m_path);
    if (!lr) return TImageP();

    // Load info in cases where it's required first
    lr->doReadPalette(false);

    if ((m_path.getType() == "pli") || (m_path.getType() == "svg") ||
        (m_path.getType() == "psd"))
      lr->loadInfo();

    bool isTlvIcon = data->m_icon && m_path.getType() == "tlv";

    // for TLV icons, palettes will be applied in IconGenerator later
    if (!isTlvIcon) lr->doReadPalette(true);  // Allow palette loading

    TImageReaderP ir = lr->getFrameReader(m_fid);

    bool enable64bit = (imFlags & ImageManager::is64bitEnabled);
    ir->enable16BitRead(enable64bit);  // Set 64-bit loading if required

    // Load the image
    TImageP img;

    if (isTlvIcon)
      img = ir->loadIcon();  // TODO: Why just in the tlv case??
    else {
      ir->setShrink(subsampling);
      img = ir->load();
    }

    ir->enable16BitRead(false);

    if (!img) return img;  // There was an error loading the image.

    TPalette *palette = data->m_sl->getPalette();
    if (palette) img->setPalette(palette);

    if (subsampling > 1) {
      // Store the subsampling info in the image
      if (TRasterImageP ri = img)
        ri->setSubsampling(subsampling);
      else if (TToonzImageP ti = img)
        ti->setSubsampling(subsampling);
    }

    // In case the image will be cached, store its subsampling and 64 bit
    // compatibility
    if (!(imFlags & ImageManager::dontPutInCache)) {
      m_subsampling = subsampling;
      m_64bitCompatible =
          data->m_sl->is16BitChannelLevel() ? enable64bit : true;
    }

    return img;
  } catch (...) {
    return TImageP();
  }
}

//-------------------------------------------------------------------------

bool ImageLoader::isImageCompatible(int imFlags, void *extData) {
  assert(extData);

  BuildExtData *data        = static_cast<BuildExtData *>(extData);
  const TXshSimpleLevel *sl = data->m_sl;

  // NOTE: Vector and Mesh dont care about sub sampling rate and bit depth
  // compatibility.
  //       They are property of Raster.
  if (sl->getType() == PLI_XSHLEVEL || sl->getType() == MESH_XSHLEVEL)
    return true;

  int subsampling = buildSubsampling(imFlags, data);

  if (m_subsampling <= 0 || subsampling != m_subsampling) return false;

  if (m_64bitCompatible || !(imFlags & ImageManager::is64bitEnabled)) {
    return true;
  } else {
    return false;
  }
}

//-------------------------------------------------------------------------

void ImageLoader::invalidate() {
  ImageBuilder::invalidate();
  m_subsampling     = 0;
  m_64bitCompatible = false;
}

//-------------------------------------------------------------------------
/*--
 * ImageBuilder仮想関数の実装。アイコン、画像をLoad時に全てキャッシュに格納する
 * --*/

void ImageLoader::buildAllIconsAndPutInCache(TXshSimpleLevel *level,
                                             std::vector<TFrameId> fids,
                                             std::vector<std::string> iconIds,
                                             bool cacheImagesAsWell) {
  if (m_path.getType() != "tlv") return;
  if (fids.empty() || iconIds.empty()) return;
  /*- fidとアイコンidの数は同じはず -*/
  if ((int)fids.size() != (int)iconIds.size()) return;

  try {
    TLevelReaderP lr(m_path);
    if (!lr) return;

    for (int i = 0; i < (int)fids.size(); i++) {
      lr->doReadPalette(false);
      TImageReaderP ir = lr->getFrameReader(fids[i]);
      lr->doReadPalette(true);

      TImageInfo info;
      TPalette *palette     = level->getPalette();
      std::string fullImgId = level->getImageId(fids[i]);

      /*- 画像データも一緒にキャッシュする場合 -*/
      if (cacheImagesAsWell) {
        ir->enable16BitRead(m_64bitCompatible);
        ir->setShrink(1);
        TImageP fullImg = ir->load();
        if (fullImg) {
          if (palette) fullImg->setPalette(palette);
          TImageCache::instance()->add(fullImgId, fullImg, true);
          setImageInfo(info, fullImg.getPointer());
        }
      }

      /*- アイコンのロード -*/
      TImageP img = ir->loadIcon();
      ir->enable16BitRead(false);
      if (img) {
        if (palette) img->setPalette(palette);
        TImageCache::instance()->add(iconIds[i], img, true);
      }
    }
  } catch (...) {
    return;
  }
}

void ImageLoader::setFid(const TFrameId &fid) { m_fid = fid; }

//***************************************************************************************
//    ImageRasterizer  implementation
//***************************************************************************************

bool ImageRasterizer::getInfo(TImageInfo &info, int imFlags, void *extData) {
  assert(false);  // None should get these... in case, TODO
  return false;
}

//-------------------------------------------------------------------------

TImageP ImageRasterizer::build(int imFlags, void *extData) {
  assert(!(imFlags &
           ~(ImageManager::dontPutInCache | ImageManager::forceRebuild)));

  TDimension d(10, 10);
  TPoint off(0, 0);

  // Fetch image
  assert(extData);
  ImageLoader::BuildExtData *data = (ImageLoader::BuildExtData *)extData;

  const std::string &srcImgId = data->m_sl->getImageId(data->m_fid);

  TImageP img = ImageManager::instance()->getImage(srcImgId, imFlags, extData);
  if (img) {
    TVectorImageP vi = img;
    if (vi) {
      TRectD bbox = vi->getBBox();

      d   = TDimension(tceil(bbox.getLx()) + 1, tceil(bbox.getLy()) + 1);
      off = TPoint((int)bbox.x0, (int)bbox.y0);

      TPalette *vpalette = vi->getPalette();
      TVectorRenderData rd(TTranslation(-off.x, -off.y), TRect(TPoint(0, 0), d),
                           vpalette, 0, true, true);

      // this is too slow.
      {
        QSurfaceFormat format;
        format.setProfile(QSurfaceFormat::CompatibilityProfile);

        std::unique_ptr<QOffscreenSurface> surface(new QOffscreenSurface());
        surface->setFormat(format);
        surface->create();

        TRaster32P ras(d);

        glPushAttrib(GL_ALL_ATTRIB_BITS);
        glMatrixMode(GL_MODELVIEW), glPushMatrix();
        glMatrixMode(GL_PROJECTION), glPushMatrix();
        {
          std::unique_ptr<QOpenGLFramebufferObject> fb(
              new QOpenGLFramebufferObject(d.lx, d.ly));

          fb->bind();

          glViewport(0, 0, d.lx, d.ly);
          glClearColor(0, 0, 0, 0);
          glClear(GL_COLOR_BUFFER_BIT);

          glMatrixMode(GL_PROJECTION);
          glLoadIdentity();
          gluOrtho2D(0, d.lx, 0, d.ly);

          glMatrixMode(GL_MODELVIEW);
          glLoadIdentity();
          glTranslatef(0.375, 0.375, 0.0);

          tglDraw(rd, vi.getPointer());

          glFlush();

          QImage img =
              fb->toImage().scaled(QSize(d.lx, d.ly), Qt::IgnoreAspectRatio,
                                   Qt::SmoothTransformation);

          int wrap      = ras->getLx() * sizeof(TPixel32);
          uchar *srcPix = img.bits();
          uchar *dstPix = ras->getRawData() + wrap * (d.ly - 1);
          for (int y = 0; y < d.ly; y++) {
            memcpy(dstPix, srcPix, wrap);
            dstPix -= wrap;
            srcPix += wrap;
          }
          fb->release();
        }
        glMatrixMode(GL_MODELVIEW), glPopMatrix();
        glMatrixMode(GL_PROJECTION), glPopMatrix();

        glPopAttrib();

        TRasterImageP ri = TRasterImageP(ras);
        ri->setOffset(off + ras->getCenter());

        assert(glGetError() == 0);

        return ri;
      }
    }
  }

  // Error case: return a dummy image (is it really required?)

  TRaster32P ras(d);
  ras->fill(TPixel32(127, 0, 127, 127));

  return TRasterImageP(ras);
}

//***************************************************************************************
//    ImageFiller  implementation
//***************************************************************************************

bool ImageFiller::getInfo(TImageInfo &info, int imFlags, void *extData) {
  assert(false);  // None should get these... in case, TODO
  return false;
}

//-------------------------------------------------------------------------

TImageP ImageFiller::build(int imFlags, void *extData) {
  assert(imFlags == ImageManager::none);

  // Fetch image
  assert(extData);

  ImageLoader::BuildExtData *data = (ImageLoader::BuildExtData *)extData;
  assert(data->m_subs == 0);

  const std::string &srcImgId = data->m_sl->getImageId(data->m_fid);

  TImageP img = ImageManager::instance()->getImage(srcImgId, imFlags, extData);
  if (img) {
    TRasterImageP ri = img;
    if (ri) {
      TRaster32P ras = ri->getRaster();
      if (ras) {
        TRaster32P newRas = ras->clone();
        FullColorAreaFiller filler(newRas);

        TPaletteP palette = new TPalette();
        int styleId       = palette->getPage(0)->addStyle(TPixel32::White);

        FillParameters params;
        params.m_palette      = palette.getPointer();
        params.m_styleId      = styleId;
        params.m_minFillDepth = 0;
        params.m_maxFillDepth = 15;
        filler.rectFill(newRas->getBounds(), params, false);

        TRasterImageP ri = TRasterImageP(newRas);
        return ri;
      }
    }
  }

  // Error case: return a dummy image (is it really required?)

  TRaster32P ras(10, 10);
  ras->fill(TPixel32(127, 0, 127, 127));

  return TRasterImageP(ras);
}