|
|
|
|
|
|
When and how to use the right BitmapCacheOption setting
by
Ben Vincent
|
I keep stumbling across the consequences of changing which BitmapCacheOption I use. Despite the fact that metadata in a file isn’t really that big in the grand scheme of things, changing which caching option you use can have annoying consequences. The two typical issues I run into are: running of our memory when process lots of files or not having any data to work with. Let’s look at the code: | // The Metadata we'll be returning
BitmapMetadata bitmapMetadata; // Open the stream, readonly
BitmapCreateOptions createOptions = BitmapCreateOptions.PreservePixelFormat | BitmapCreateOptions.IgnoreColorProfile; // Create a decoder, cache all content on load because we'll close the stream
using (Stream sourceStream = File.Open(file, FileMode.Open, FileAccess.Read))
{
// Create a Bitmap Decoder, loading all metadata on load
BitmapDecoder bitmapDecoder = BitmapDecoder.Create(sourceStream, createOptions, BitmapCacheOption.OnLoad); // Grab the metadata
bitmapMetadata = bitmapDecoder.Frames[0].Metadata.Clone() as BitmapMetadata;
} | If you use BitmapCacheOption.OnLoad then the decoder will load all the metadata into memory from the stream. When you Clone the BitmapMetadata you can safely close the stream with a full copy. That sounds great but it’s not fast and I’ve seen 20Mb of memory allocated per jpg photo, so pretty soon you’re running out of memory even on a decent machine. But if you use BitmapCacheOption.None, when you clone the BitmapMetadata and exit the using statement, there’s no metadata to play with! So how do you make your code performant but still have data to use? Fotofly solves this by grabbing all the most frequently used data from BitmapMetadata before throwing the stream away. The code below works by passing BitmapMetadata into a class that provides additional methods for reading\writing common attributes. Using reflection all the data is then copied across to a class that has no reliance on BitmapMetadata. | // The Metadata we'll be returning
PhotoMetadata photoMetadata = new PhotoMetadata(); BitmapCreateOptions createOptions = BitmapCreateOptions.PreservePixelFormat | BitmapCreateOptions.IgnoreColorProfile; // Open the stream, readonly
using (Stream sourceStream = File.Open(file, FileMode.Open, FileAccess.Read))
{
// Create a decoder with no cache options set
BitmapDecoder bitmapDecoder = BitmapDecoder.Create(sourceStream, createOptions, BitmapCacheOption.None); // Create a new WpfMetadata class that exposes all the right fields
WpfMetadata wpfMetadata = new WpfMetadata(bitmapDecoder.Frames[0].Metadata as BitmapMetadata); // Copy the common metadata across using reflection tool
IPhotoMetadataTools.CopyMetadata(wpfMetadata, photoMetadata);
} | Even this doesn’t work when you’re loading hundreds of photos because Garbage Collection never appears to kick in. Under those circumstances I’ve found forcing Garbage Collection keeps the memory usage pretty low: | // Force Garbage Collection
GC.Collect();
GC.WaitForPendingFinalizers(); | You can download Fotofly from Codeplex. |
|
|
|
Reading Geotagging in Photos Using Windows Imaging Component
by
Ben Vincent
|
| In this blog I’m going to explain how Geotagging metadata can be read and written using Windows Imaging Component. First lets look at all the queries. These are the common ones, there are plenty more but I have not found any immediate need to use them. [Read More] |
|
|
|
Fotofly v0.1 available for Download on Codeplex
by
Ben Vincent
|
| After several years of evolving my photo metadata code I’m finally ready to put it online. Being the nice corporate citizen that I am, I’m using CodePlex and you can find Fotofly here for download. My somewhat lofty description of the project is: “A comprehensive C# library for reading, manipulating and writing metadata stored in jpg photos using WPF and the Windows Imaging Component. Includes support for Windows Live Photo Gallery People Tags, GPS Coordinates and most EXIF, XMP & IPTC properties.” Hopefully I’ll get lots of downloads and feedback to help improve it further. [Read More] |
|
|
|
Reading and Creating Exif Rationals
by
Ben Vincent
|
| Quite why Jeida who created Exif decided to use Rationals is beyond me but they did so you have to work with them if you’re playing with jpg metadata. In this blog post I’ll share my Rational class so you don’t have to go through all the pain I went through in creating it. It’s amusingly short now I look at it here but it took way too long to work it out. The class has two constructors, one for the value you’ve retrieved from BitmapMetadata, the second when you’re creating your own rationals. [Read More] |
|
|
|
Basic Editing of Photo Metadata Using Windows Imaging Component
by
Ben Vincent
|
| In my previous posts I’ve provided examples on using Windows Imaging Component to Read & Write jpg metadata. In this post I’ll explain how to use ContainsQuery, GetQuery, SetQuery and RemoveQuery. As an added bonus I’m going to use the IPTC address fields as my example. Whilst BitmapMetadata does provide some standard properties like Subject and Title, it is far from comprehensive. [Read More] |
|
|
|
Writing Photo Metadata Using Windows Imaging Component
by
Ben Vincent
|
| In this blog I’m going to build on my previous posting on Reading Metadata and explain how to write metadata stored in a jpg file using Windows Imaging Component. You can find all my blogs on Windows Imaging Component here. If you want to change any of the metadata, the first thing you have to do is make sure there’s room for your changes. This is done by adding padding to the metadata. [Read More] |
|
|
|
Reading Photo Metadata Using Windows Imaging Component
by
Ben Vincent
|
| I still see a lot of questions on the Internet and at work on how to read (& write) metadata in Photos. There are plenty of examples out there but they all appear to have some pitfalls. To be quite honest, the code I’ve been using for a number of years now is mature enough that it solves almost all the problems I’ve seen. This blog is the first in a series that document how to read (this blog), write and manipulate photo metadata. [Read More] |
|
|
|
Using WIC & C# to read Windows Live Photo Gallery’s People Tags
by
Ben Vincent
|
| In my last posting I talked about how Windows Live Photo Gallery (WLPG) stores People tags in XMP. In this post I’m going to extend the Windows Imaging Component code from Robert Wlodarczyk’s Blog to read the data. The code is pretty simple to use, just make sure you have PresentationCore registered in your project and the System.Windows.Media.Imaging namespace. [Read More] |
|
|
|
Understanding how Windows Live Photo Gallery’s People Tags are Stored
by
Ben Vincent
|
| Since writing Tassography.com tags have been an important part of my workflow. For as long as I can remember I have been using Microsoft’s Digital Image Pro 2006. With the release of the new version of Windows Live Photo Gallery (WLPG), I took this Christmas the time to switch over and take advantage of some of the cool new features. The most compelling new feature for me is the new people tagging capabilities. [Read More] |
|
|
|
Copying Jpeg Metadata using C# and Windows Imaging Component
by
Ben Vincent
|
| It’s a scenario I keep finding myself in, I have two copies of the same photo but I want all metadata changes from one file in the other. For example, I want update my backup with changes I’ve made to metadata but don’t want to touch the source image, or I have the original and a small version of the same file. I haven’t found any reliable way to do this, so I finally sat down and wrote my own using plenty of excellent data on Robert Wlodarczyk’s Blog and the Windows Imaging Component. First, let’s look at the metadata stored in my two files using WICExplorer: [Read More] |
|
|
|
|
|
|
This website, all photography & other content is Copyright © Ben Vincent. Unauthorised use of images is strictly prohibited.
Catalog Last Updated: Mon, 19 Jul 2010, 22:48:43 | Version v4.0.3861.38195
|
Powered by
|
|
|