void TransferManagerModel::addJobToList(QXmppTransferJob *job) { beginInsertRows(QModelIndex(), m_jobList.count(), m_jobList.count()); m_jobList << job; m_doneSize << 0; connect(job, SIGNAL(finished()), this, SLOT(jobFinished()) ); connect(job, SIGNAL(progress(qint64,qint64)), this, SLOT(jobProgress(qint64,qint64)) ); connect(job, SIGNAL(stateChanged(QXmppTransferJob::State)), this, SLOT(jobStateChanged(QXmppTransferJob::State)) ); endInsertRows(); }
virtual void ackFileOpProgress(double progress) override { jobProgress(progress); }
/** * [working thread] */ virtual void onJob() { UndoTransaction undoTransaction(m_writer.context(), "Rotate Canvas"); DocumentApi api = m_document->getApi(); // get all sprite cels CelList cels; m_sprite->getCels(cels); // for each cel... for (CelIterator it = cels.begin(); it != cels.end(); ++it) { Cel* cel = *it; Image* image = m_sprite->getStock()->getImage(cel->getImage()); // change it location switch (m_angle) { case 180: api.setCelPosition(m_sprite, cel, m_sprite->getWidth() - cel->getX() - image->getWidth(), m_sprite->getHeight() - cel->getY() - image->getHeight()); break; case 90: api.setCelPosition(m_sprite, cel, m_sprite->getHeight() - cel->getY() - image->getHeight(), cel->getX()); break; case -90: api.setCelPosition(m_sprite, cel, cel->getY(), m_sprite->getWidth() - cel->getX() - image->getWidth()); break; } } // for each stock's image for (int i=0; i<m_sprite->getStock()->size(); ++i) { Image* image = m_sprite->getStock()->getImage(i); if (!image) continue; // rotate the image Image* new_image = Image::create(image->getPixelFormat(), m_angle == 180 ? image->getWidth(): image->getHeight(), m_angle == 180 ? image->getHeight(): image->getWidth()); raster::rotate_image(image, new_image, m_angle); api.replaceStockImage(m_sprite, i, new_image); jobProgress((float)i / m_sprite->getStock()->size()); // cancel all the operation? if (isCanceled()) return; // UndoTransaction destructor will undo all operations } // rotate mask if (m_document->isMaskVisible()) { Mask* origMask = m_document->getMask(); base::UniquePtr<Mask> new_mask(new Mask()); const gfx::Rect& origBounds = origMask->getBounds(); int x = 0, y = 0; switch (m_angle) { case 180: x = m_sprite->getWidth() - origBounds.x - origBounds.w; y = m_sprite->getHeight() - origBounds.y - origBounds.h; break; case 90: x = m_sprite->getHeight() - origBounds.y - origBounds.h; y = origBounds.x; break; case -90: x = origBounds.y; y = m_sprite->getWidth() - origBounds.x - origBounds.w; break; } // create the new rotated mask new_mask->replace(x, y, m_angle == 180 ? origBounds.w: origBounds.h, m_angle == 180 ? origBounds.h: origBounds.w); raster::rotate_image(origMask->getBitmap(), new_mask->getBitmap(), m_angle); // Copy new mask api.copyToCurrentMask(new_mask); // Regenerate mask m_document->resetTransformation(); m_document->generateMaskBoundaries(); } // change the sprite's size if (m_angle != 180) api.setSpriteSize(m_sprite, m_sprite->getHeight(), m_sprite->getWidth()); // commit changes undoTransaction.commit(); }
void MeltJob::emitFrameNumber(int pos) { if (m_length > 0) { emit jobProgress(m_clipId, (int) (100 * pos / m_length), jobType); } }
/** * [working thread] */ virtual void onJob() { UndoTransaction undoTransaction(m_document, "Rotate Canvas"); // get all sprite cels CelList cels; m_sprite->getCels(cels); // for each cel... for (CelIterator it = cels.begin(); it != cels.end(); ++it) { Cel* cel = *it; Image* image = m_sprite->getStock()->getImage(cel->getImage()); // change it location switch (m_angle) { case 180: undoTransaction.setCelPosition(cel, m_sprite->getWidth() - cel->getX() - image->w, m_sprite->getHeight() - cel->getY() - image->h); break; case 90: undoTransaction.setCelPosition(cel, m_sprite->getHeight() - cel->getY() - image->h, cel->getX()); break; case -90: undoTransaction.setCelPosition(cel, cel->getY(), m_sprite->getWidth() - cel->getX() - image->w); break; } } // for each stock's image for (int i=0; i<m_sprite->getStock()->size(); ++i) { Image* image = m_sprite->getStock()->getImage(i); if (!image) continue; // rotate the image Image* new_image = image_new(image->imgtype, m_angle == 180 ? image->w: image->h, m_angle == 180 ? image->h: image->w); image_rotate(image, new_image, m_angle); undoTransaction.replaceStockImage(i, new_image); jobProgress((float)i / m_sprite->getStock()->size()); // cancel all the operation? if (isCanceled()) return; // UndoTransaction destructor will undo all operations } // rotate mask if (m_document->isMaskVisible()) { Mask* origMask = m_document->getMask(); Mask* new_mask = mask_new(); int x = 0, y = 0; switch (m_angle) { case 180: x = m_sprite->getWidth() - origMask->x - origMask->w; y = m_sprite->getHeight() - origMask->y - origMask->h; break; case 90: x = m_sprite->getHeight() - origMask->y - origMask->h; y = origMask->x; break; case -90: x = origMask->y; y = m_sprite->getWidth() - origMask->x - origMask->w; break; } // create the new rotated mask mask_replace(new_mask, x, y, m_angle == 180 ? origMask->w: origMask->h, m_angle == 180 ? origMask->h: origMask->w); image_rotate(origMask->bitmap, new_mask->bitmap, m_angle); // copy new mask undoTransaction.copyToCurrentMask(new_mask); mask_free(new_mask); // regenerate mask m_document->generateMaskBoundaries(); } // change the sprite's size if (m_angle != 180) undoTransaction.setSpriteSize(m_sprite->getHeight(), m_sprite->getWidth()); // commit changes undoTransaction.commit(); }
void onPaletteOptimizerProgress(double progress) override { jobProgress(progress); }
// [working thread] virtual void onJob() { Transaction transaction(m_writer.context(), "Rotate Canvas"); DocumentApi api = m_document->getApi(transaction); // 1) Rotate cel positions for (Cel* cel : m_cels) { Image* image = cel->image(); if (!image) continue; switch (m_angle) { case 180: api.setCelPosition(m_sprite, cel, m_sprite->width() - cel->x() - image->width(), m_sprite->height() - cel->y() - image->height()); break; case 90: api.setCelPosition(m_sprite, cel, m_sprite->height() - cel->y() - image->height(), cel->x()); break; case -90: api.setCelPosition(m_sprite, cel, cel->y(), m_sprite->width() - cel->x() - image->width()); break; } } // 2) Rotate images int i = 0; for (Cel* cel : m_cels) { Image* image = cel->image(); if (image) { ImageRef new_image(Image::create(image->pixelFormat(), m_angle == 180 ? image->width(): image->height(), m_angle == 180 ? image->height(): image->width())); doc::rotate_image(image, new_image.get(), m_angle); api.replaceImage(m_sprite, cel->imageRef(), new_image); } jobProgress((float)i / m_cels.size()); ++i; // cancel all the operation? if (isCanceled()) return; // Transaction destructor will undo all operations } // rotate mask if (m_document->isMaskVisible()) { Mask* origMask = m_document->mask(); base::UniquePtr<Mask> new_mask(new Mask()); const gfx::Rect& origBounds = origMask->bounds(); int x = 0, y = 0; switch (m_angle) { case 180: x = m_sprite->width() - origBounds.x - origBounds.w; y = m_sprite->height() - origBounds.y - origBounds.h; break; case 90: x = m_sprite->height() - origBounds.y - origBounds.h; y = origBounds.x; break; case -90: x = origBounds.y; y = m_sprite->width() - origBounds.x - origBounds.w; break; } // create the new rotated mask new_mask->replace( gfx::Rect(x, y, m_angle == 180 ? origBounds.w: origBounds.h, m_angle == 180 ? origBounds.h: origBounds.w)); doc::rotate_image(origMask->bitmap(), new_mask->bitmap(), m_angle); // Copy new mask api.copyToCurrentMask(new_mask); // Regenerate mask m_document->resetTransformation(); m_document->generateMaskBoundaries(); } // change the sprite's size if (m_rotateSprite && m_angle != 180) api.setSpriteSize(m_sprite, m_sprite->height(), m_sprite->width()); // commit changes transaction.commit(); }