Manage Blob

About BLOB

BLOB (Binary Large Object) is usually a large item (photo, presentation, document, or media) saved in binary formats.

Aspose.Slides for Android via Java allows you to use BLOBs for objects in a way that reduces memory consumption when large files are involved.

Use BLOB to Reduce Memory Consumption

Add Large File through BLOB to a Presentation

Aspose.Slides for Java allows you to add large files (in this case, a large video file) through a process involving BLOBs to reduce memory consumption.

This Java shows you how to add a large video file through the BLOB process to a presentation:

String pathToVeryLargeVideo = "veryLargeVideo.avi";

// Creates a new presentation to which the video will be added
Presentation pres = new Presentation();
try {
    FileInputStream fileStream = new FileInputStream(pathToVeryLargeVideo);
    try {
        // Let's add the video to the presentation - we chose the KeepLocked behavior because we do
        //not intend to access the "veryLargeVideo.avi" file.
        IVideo video = pres.getVideos().addVideo(fileStream, LoadingStreamBehavior.KeepLocked);
        pres.getSlides().get_Item(0).getShapes().addVideoFrame(0, 0, 480, 270, video);

        // Saves the presentation. While a large presentation gets outputted, the memory consumption
        // stays low through the pres object's lifecycle 
        pres.save("presentationWithLargeVideo.pptx", SaveFormat.Pptx);
    } finally {
        if (fileStream != null) fileStream.close();
    }
} catch(IOException e) {
} finally {
    if (pres != null) pres.dispose();
}

Export Large File Through BLOB from Presentation

Aspose.Slides for Android via Java allows you to export large files (in this case, an audio or video file) through a process involving BLOBs from presentations. For example, you may need to extract a large media file from a presentation but do not want the file to be loaded into your computer’s memory. By exporting the file through the BLOB process, you get to keep memory consumption low.

This code in Java demonstrates the described operation:

String hugePresentationWithAudiosAndVideosFile = "LargeVideoFileTest.pptx";

LoadOptions loadOptions = new LoadOptions();
// Locks the source file and does NOT load it into memory
loadOptions.getBlobManagementOptions().setPresentationLockingBehavior(PresentationLockingBehavior.KeepLocked);

// create the Presentation's instance, lock the "hugePresentationWithAudiosAndVideos.pptx" file.
Presentation pres = new Presentation(hugePresentationWithAudiosAndVideosFile, loadOptions);
try {
    // Let's save each video to a file. To prevent high memory usage, we need a buffer that will be used
    // to transfer the data from the presentation's video stream to a stream for a newly created video file.
    byte[] buffer = new byte[8 * 1024];

    // Iterates through the videos
    for (int index = 0; index < pres.getVideos().size(); index++) {
        IVideo video = pres.getVideos().get_Item(index);

        // Opens the presentation video stream. Please, note that we intentionally avoided accessing properties
        // like video.BinaryData - because this property returns a byte array containing a full video, which then
        // causes bytes to be loaded into memory. We use video.GetStream, which will return Stream - and does NOT
        //  require us to load the whole video into the memory.
        InputStream presVideoStream = video.getStream();
        try {
            OutputStream outputFileStream = new FileOutputStream("video" + index + ".avi");
            try {
                int bytesRead;
                while ((bytesRead = presVideoStream.read(buffer, 0, buffer.length)) > 0) {
                    outputFileStream.write(buffer, 0, bytesRead);
                }
            } finally {
                outputFileStream.close();
            }
        } finally {
            presVideoStream.close();
        }
        // Memory consumption will remain low regardless of the size of the video or presentation.
    }
    // If necessary, you can apply the same steps for audio files. 
} catch (IOException e) {
} finally {
    pres.dispose();
}

Add Image as BLOB in Presentation

With methods from the IImageCollection interface and ImageCollection class, you can add a large image as a stream to get it treated as a BLOB.

This Java code shows you how to add a large image through the BLOB process:

String pathToLargeImage = "large_image.jpg";

// creates a new presentation to which the image will be added.
Presentation pres = new Presentation();
try {
	FileInputStream fileStream = new FileInputStream(pathToLargeImage);
	try {
		// Let's add the image to the presentation - we choose KeepLocked behavior because we do
		// NOT intend to access the "largeImage.png" file.
		IPPImage img = pres.getImages().addImage(fileStream, LoadingStreamBehavior.KeepLocked);
		pres.getSlides().get_Item(0).getShapes().addPictureFrame(ShapeType.Rectangle, 0, 0, 300, 200, img);

		// Saves the presentation. While a large presentation gets outputted, the memory consumption
		// stays low through the pres object's lifecycle
		pres.save("presentationWithLargeImage.pptx", SaveFormat.Pptx);
	} finally {
		if (fileStream != null) fileStream.close();
	}
} catch(IOException e) {
} finally {
	if (pres != null) pres.dispose();
}

Memory and Large Presentations

Typically, to load a large presentation, computers require a lot of temporary memory. All the presentation’s content is loaded into the memory and the file (from which the presentation was loaded) stops being used.

Consider a large PowerPoint presentation (large.pptx) that contains a 1.5 GB video file. The standard method for loading the presentation is described in this Java code:

Presentation pres = new Presentation("large.pptx");
try {
    pres.save("large.pdf", SaveFormat.Pdf);
} finally {
    if (pres != null) pres.dispose();
}

But this method consumes around 1.6 GB of temporary memory.

Load a Large Presentation as BLOB

Through the process involving a BLOB, you can load up a large presentation while using little memory. This Java code describes the implementation where the BLOB process is used to load up a large presentation file (large.pptx):

LoadOptions loadOptions = new LoadOptions();
loadOptions.getBlobManagementOptions().setPresentationLockingBehavior(PresentationLockingBehavior.KeepLocked);
loadOptions.getBlobManagementOptions().setTemporaryFilesAllowed(true);

Presentation pres = new Presentation("large.pptx", loadOptions);
try {
    pres.save("large.pdf", SaveFormat.Pdf);
} finally {
    if (pres != null) pres.dispose();
}

Change the Folder for Temporary Files

When the BLOB process is used, your computer creates temporary files in the default folder for temporary files. If you want the temporary files to be kept in a different folder, you can change the settings for storage using TempFilesRootPath:

LoadOptions loadOptions = new LoadOptions();
loadOptions.getBlobManagementOptions().setPresentationLockingBehavior(PresentationLockingBehavior.KeepLocked);
loadOptions.getBlobManagementOptions().setTemporaryFilesAllowed(true);
loadOptions.getBlobManagementOptions().setTempFilesRootPath("temp");