Exemplo n.º 1
0
void FlipCommand::onExecute(Context* context)
{
  ContextWriter writer(context);
  Document* document = writer.document();
  Sprite* sprite = writer.sprite();

  {
    Transaction transaction(writer.context(),
      m_flipMask ?
      (m_flipType == doc::algorithm::FlipHorizontal ?
        "Flip Horizontal":
        "Flip Vertical"):
      (m_flipType == doc::algorithm::FlipHorizontal ?
        "Flip Canvas Horizontal":
        "Flip Canvas Vertical"));
    DocumentApi api = document->getApi(transaction);

    CelList cels;
    if (m_flipMask) {
      auto range = App::instance()->timeline()->range();
      if (range.enabled())
        cels = get_unique_cels(sprite, range);
      else if (writer.cel())
        cels.push_back(writer.cel());
    }
    else {
      for (Cel* cel : sprite->uniqueCels())
        cels.push_back(cel);
    }

    Mask* mask = document->mask();
    if (m_flipMask && document->isMaskVisible()) {
      Site site = *writer.site();

      for (Cel* cel : cels) {
        site.frame(cel->frame());
        site.layer(cel->layer());

        int x, y;
        Image* image = site.image(&x, &y);
        if (!image)
          continue;

        // When the mask is inside the cel, we can try to flip the
        // pixels inside the image.
        if (cel->bounds().contains(mask->bounds())) {
          gfx::Rect flipBounds = mask->bounds();
          flipBounds.offset(-x, -y);
          flipBounds &= image->bounds();
          if (flipBounds.isEmpty())
            continue;

          if (mask->bitmap() && !mask->isRectangular())
            transaction.execute(new cmd::FlipMaskedCel(cel, m_flipType));
          else
            api.flipImage(image, flipBounds, m_flipType);

          if (cel->layer()->isTransparent())
            transaction.execute(new cmd::TrimCel(cel));
        }
        // When the mask is bigger than the cel bounds, we have to
        // expand the cel, make the flip, and shrink it again.
        else {
          gfx::Rect flipBounds = (sprite->bounds() & mask->bounds());
          if (flipBounds.isEmpty())
            continue;

          ExpandCelCanvas expand(
            site, cel->layer(),
            TiledMode::NONE, transaction,
            ExpandCelCanvas::None);

          expand.validateDestCanvas(gfx::Region(flipBounds));

          if (mask->bitmap() && !mask->isRectangular())
            doc::algorithm::flip_image_with_mask(
              expand.getDestCanvas(), mask, m_flipType,
              document->bgColor(cel->layer()));
          else
            doc::algorithm::flip_image(
              expand.getDestCanvas(),
              flipBounds, m_flipType);

          expand.commit();
        }
      }
    }
    else {
      for (Cel* cel : cels) {
        Image* image = cel->image();

        api.setCelPosition
          (sprite, cel,
            (m_flipType == doc::algorithm::FlipHorizontal ?
              sprite->width() - image->width() - cel->x():
              cel->x()),
            (m_flipType == doc::algorithm::FlipVertical ?
              sprite->height() - image->height() - cel->y():
              cel->y()));

        api.flipImage(image, image->bounds(), m_flipType);
      }
    }

    // Flip the mask.
    Image* maskBitmap = mask->bitmap();
    if (maskBitmap) {
      transaction.execute(new cmd::FlipMask(document, m_flipType));

      // Flip the mask position because the
      if (!m_flipMask)
        transaction.execute(
          new cmd::SetMaskPosition(
            document,
            gfx::Point(
              (m_flipType == doc::algorithm::FlipHorizontal ?
               sprite->width() - mask->bounds().x2():
               mask->bounds().x),
              (m_flipType == doc::algorithm::FlipVertical ?
               sprite->height() - mask->bounds().y2():
               mask->bounds().y))));

      document->generateMaskBoundaries();
    }

    transaction.commit();
  }

  update_screen_for_document(document);
}
Exemplo n.º 2
0
void FlipCommand::onExecute(Context* context)
{
  ContextWriter writer(context);
  Document* document = writer.document();
  Sprite* sprite = writer.sprite();
  DocumentApi api = document->getApi();

  {
    UndoTransaction undoTransaction(writer.context(),
                                    m_flipMask ?
                                    (m_flipType == raster::algorithm::FlipHorizontal ?
                                     "Flip Horizontal":
                                     "Flip Vertical"):
                                    (m_flipType == raster::algorithm::FlipHorizontal ?
                                     "Flip Canvas Horizontal":
                                     "Flip Canvas Vertical"));

    if (m_flipMask) {
      int x, y;
      Image* image = writer.image(&x, &y);
      if (!image)
        return;

      Mask* mask = NULL;
      bool alreadyFlipped = false;

      // This variable will be the area to be flipped inside the image.
      gfx::Rect bounds(image->getBounds());

      // If there is some portion of sprite selected, we flip the
      // selected region only. If the mask isn't visible, we flip the
      // whole image.
      if (document->isMaskVisible()) {
        mask = document->getMask();

        // Intersect the full area of the image with the mask's
        // bounds, so we don't request to flip an area outside the
        // image's bounds.
        bounds = bounds.createIntersect(gfx::Rect(mask->getBounds()).offset(-x, -y));

        // If the mask isn't a rectangular area, we've to flip the mask too.
        if (mask->getBitmap() != NULL && !mask->isRectangular()) {
          int bgcolor = app_get_color_to_clear_layer(writer.layer());

          // Flip the portion of image specified by the mask.
          mask->offsetOrigin(-x, -y);
          api.flipImageWithMask(image, mask, m_flipType, bgcolor);
          mask->offsetOrigin(x, y);
          alreadyFlipped = true;

          // Flip the mask.
          Image* maskBitmap = mask->getBitmap();
          if (maskBitmap != NULL) {
            // Create a flipped copy of the current mask.
            base::UniquePtr<Mask> newMask(new Mask(*mask));
            newMask->freeze();
            raster::algorithm::flip_image(newMask->getBitmap(),
              maskBitmap->getBounds(), m_flipType);
            newMask->unfreeze();

            // Change the current mask and generate the new boundaries.
            api.copyToCurrentMask(newMask);

            document->generateMaskBoundaries();
          }
        }
      }

      // Flip the portion of image specified by "bounds" variable.
      if (!alreadyFlipped) {
        api.flipImage(image, bounds, m_flipType);
      }
    }
    else {
      // get all sprite cels
      CelList cels;
      sprite->getCels(cels);

      // for each cel...
      for (CelIterator it = cels.begin(); it != cels.end(); ++it) {
        Cel* cel = *it;
        Image* image = sprite->getStock()->getImage(cel->getImage());

        api.setCelPosition
          (sprite, cel,
           (m_flipType == raster::algorithm::FlipHorizontal ?
            sprite->getWidth() - image->getWidth() - cel->getX():
            cel->getX()),
           (m_flipType == raster::algorithm::FlipVertical ?
            sprite->getHeight() - image->getHeight() - cel->getY():
            cel->getY()));

        api.flipImage(image, image->getBounds(), m_flipType);
      }
    }

    undoTransaction.commit();
  }

  update_screen_for_document(document);
}