commit	362c1a626a6099715b45d179dbc72a47feda8236	[log] [tgz]
author	David Morrissey <davemorrissey@gmail.com>	Mon Mar 09 22:35:10 2015 +0000
committer	David Morrissey <davemorrissey@gmail.com>	Mon Mar 09 22:35:10 2015 +0000
tree	148bce7dbf500a0ffee31c39b0d005c61fe502dd
parent	85c2a76b677b5c3116c75f0e474f8e1efe0e9972 [diff]

tree: 148bce7dbf500a0ffee31c39b0d005c61fe502dd

README.md

Subsampling Scale Image View

A custom image view for Android, designed for photo galleries and displaying huge images (e.g. maps and building plans) without OutOfMemoryErrors. Includes pinch to zoom, panning, rotation and animation support, and allows easy extension so you can add your own overlays and touch event detection.

The view optionally uses subsampling and tiles to support very large images - a low resolution base layer is loaded and as you zoom in, it is overlaid with smaller high resolution tiles for the visible area. This avoids holding too much data in memory. It's ideal for displaying large images while allowing you to zoom in to the high resolution details. You can disable tiling for smaller images and when displaying a bitmap object. There are some advantages and disadvantages to disabling tiling so to decide which is best, see below.

2.x.x to 3.x.x migration

Version 3 includes breaking changes. To upgrade, you will need to make a few simple changes to your activities and subclasses.

What's new

Support for preview images, allowing a low resolution preview to be displayed and gestures to be enabled while base layer tiles of the full size image are loaded. This is useful for very big images (over 10,000px).
Revised lifecycle events, so you can display a loading message until the base layer is fully loaded.
A listener interface to allow activities to respond to lifecycle events and image loading errors.
ScaleImageView has been merged into SubsamplingScaleImageView, which now supports display of large images with tiling, and small images without tiling or from a bitmap object.

Migrating to version 3

1) Change the method for setting the image source.

Old method	New method
`view.setImageAsset("map.png")`	`view.setImage(ImageSource.asset("map.png"))`
`view.setImageResource(R.drawable.map)`	`view.setImage(ImageSource.resource(R.drawable.map, context))`
`view.setImageUri("/sdcard/map.png")`	`view.setImage(ImageSource.uri("/sdcard/map.png"))`
`view.setImageBitmap(map)`	`view.getImage(ImageSource.bitmap(map))`

2) Replace uses of ScaleImageView with SubsamplingScaleImageView and disable tiling if required. For example:

SubsamplingScaleImageView view = (SubsamplingScaleImageView)findViewById(id.imageView);
view.setImage(ImageSource.asset("map.png").withTilingDisabled());

3) Replace uses of isImageReady() with isReady().

4) In subclasses, replace overrides of onImageReady() with onReady().

Download the sample app

Hall of fame

Are you using this library in your app? Let me know and I'll add it to this list.


Fourth Mate	Sync for reddit	Journal

Clover	Tag Gallery	nycTrans.it

Features

Image display

Display images from assets, resources, the file system or bitmaps
Automatically rotate images from the file system (e.g. the camera or gallery) according to EXIF
Manually rotate images in 90° increments
Display a region of the source image
Use a preview image while large images load
Swap images at runtime
Use a custom bitmap decoder

With tiling enabled:

Display huge images, larger than can be loaded into memory
Show high resolution detail on zooming in
Tested up to 20,000x20,000px, though larger images are slower

This view doesn't extend ImageView and isn't intended as a general purpose replacement for it. It's specialised for the display of photos and other large images, not the display of 9-patches, shapes and the other types of drawable that ImageView supports.

Gesture detection

One finger pan
Two finger pinch to zoom
Quick scale (one finger zoom)
Pan while zooming
Seamless switch between pan and zoom
Fling momentum after panning
Double tap to zoom in and out
Options to disable pan and/or zoom gestures

Animation

Public methods for animating the scale and center
Customisable duration and easing
Optional uninterruptible animations

Overridable event detection

Supports OnClickListener and OnLongClickListener
Supports interception of events using GestureDetector and OnTouchListener
Extend to add your own gestures

Easy integration

Use within a ViewPager to create a photo gallery
Easily restore scale, center and orientation after screen rotation
Can be extended to add overlay graphics that move and scale with the image
Handles view resizing and wrap_content layout

Limitations

Tiling requires SDK 10 (Gingerbread). You can work around this with a custom decoder - see the section below.
With tiling enabled, the view cannot display grayscale PNGs on Android Lollipop, due to bugs in the skia library and/or BitmapRegionDecoder. Earlier versions of Android also have issues displaying some grayscale PNGs, but not all. I have reported these bugs to Google. For a workaround, see the section on custom bitmap decoders below.
The view does not extend ImageView so attributes including android:tint and android:src are not supported. Support for android:scaleType is limited and it must be set from code.
Images stored in resources and assets cannot be rotated based on EXIF, you'll need to do it manually. You probably know the orientation of your own files :-)

When to use tiling

Tiling is enabled by default. You may wish to disable it under some circumstances.

Enable tiling if:

You want to zoom into very large images without losing detail.
You need to display images of unknown size e.g. from the camera or gallery.
You don't know if the images may be too large to fit in memory on some devices.
You need to display images larger than 2048px.
You don't need to support devices older than SDK 10.

Disable tiling if:

You know the size of the images you're displaying.
You know the images are small enough to fit in memory on all your target devices.
Your images are no larger than 2048px, or you are able to scale them down.
You need to support devices older than SDK 10.

Installation

Add the library to your app using one of these methods:

Add com.davemorrissey.labs:subsampling-scale-image-view:3.0.0 as a dependency in your build.gradle file
or download the library aar file from the releases page and add to your app manually
or clone the project and import the library subproject as a module in your app
or clone the project and copy the resources and classes from com.davemorrissey.labs.subscaleview into your project

Add the view to your layout XML as shown below. Normally you should set width and height to match_parent.

<LinearLayout xmlns:android="http://schemas.android.com/apk/res/android"
    android:layout_width="match_parent"
    android:layout_height="match_parent" >

    <com.davemorrissey.labs.subscaleview.SubsamplingScaleImageView
        android:id="@+id/imageView"
        android:layout_width="match_parent"
        android:layout_height="match_parent"/>

</RelativeLayout>

Now, in your fragment or activity, set the image resource, asset name or file path.

SubsamplingScaleImageView imageView = (SubsamplingScaleImageView)findViewById(id.imageView);
imageView.setImage(ImageSource.resource(R.drawable.monkey));
// ... or ...
imageView.setImage(ImageSource.asset("map.png"))
// ... or ...
imageView.setImage(ImageSource.uri("/sdcard/DCIM/DSCM00123.JPG"));

That's it! Keep reading for some more options.

Define asset name in XML

For a zero code approach to showing an image from your assets, you need to define the custom namespace in your layout.

<LinearLayout xmlns:android="http://schemas.android.com/apk/res/android"
    xmlns:ssiv="http://schemas.android.com/apk/res-auto"
    android:layout_width="match_parent"
    android:layout_height="match_parent" >

    <com.davemorrissey.labs.subscaleview.SubsamplingScaleImageView
        ssiv:assetName="map.png"
        android:layout_width="match_parent"
        android:layout_height="match_parent"/>
        
</RelativeLayout>

This method doesn't support restoring state after a screen orientation change.

Handle screen orientation changes

If you want the current scale, center and orientation to be preserved when the screen is rotated, you can request it from the view's getState method, and restore it after rotation, by passing it to the view along with the image asset name or file path. Here's a simple example of how you might do this in a fragment.

private static final String BUNDLE_STATE = "ImageViewState";

@Override
public View onCreateView(LayoutInflater inflater, ViewGroup container, Bundle savedInstanceState) {
    View rootView = inflater.inflate(R.layout.my_fragment, container, false);
    
    ImageViewState imageViewState = null;
    if (savedInstanceState != null && savedInstanceState.containsKey(BUNDLE_STATE)) {
        imageViewState = (ImageViewState)savedInstanceState.getSerializable(BUNDLE_STATE);
    }
    SubsamplingScaleImageView imageView = (SubsamplingScaleImageView)rootView.findViewById(id.imageView);
    imageView.setImage(ImageSource.asset("map.png"), imageViewState);
    
    return rootView;
}

@Override
public void onSaveInstanceState(Bundle outState) {
    View rootView = getView();
    if (rootView != null) {
        SubsamplingScaleImageView imageView = (SubsamplingScaleImageView)rootView.findViewById(id.imageView);
        ImageViewState state = imageView.getState();
        if (state != null) {
            outState.putSerializable(BUNDLE_STATE, imageView.getState());
        }
    }
}

Custom bitmap decoders

Android's BitmapRegionDecoder class is based on the Skia library. Some users have reported problems with this library, particularly when displaying grayscale JPGs. Unfortunately it seems to be less reliable in recent versions of Android. If you don't control the format of the images displayed in your app (for example, they are user generated content) you may require a more reliable decoder.

To use your own decoder based on a different library, implement the ImageRegionDecoder class (do not include a constructor) and enable it using this call:

imageView.setDecoderClass(MyImageRegionDecoder.class);

As an example, see the RapidImageRegionDecoder class, which is based on RapidDecoder. This library is better at decoding grayscale JPG images but does not handle large images as well as BitmapRegionDecoder - it is significantly slower and more likely to throw out of memory errors. It appears to be very fast and reliable for PNG images. If you can detect the size and type of an image before displaying it, you can use different decoders for different images to get the best results.

Whenever possible, convert your images to a format Android's Skia library can support, and test with a variety of devices.

Quality notes

Images are decoded as dithered RGB_565 bitmaps by default, because this requires half as much memory as ARGB_8888. For most JPGs you won't notice the difference in quality. If you are displaying large PNGs with alpha channels, Android will probably decode them as ARGB_8888, and this may cause OutOfMemoryErrors. If possible, remove the alpha channel from PNGs larger than about 2,000x2,000. This allows them to be decoded as RGB_565.

Extending functionality

Take a look at the sample app for examples of classes that overlay graphics on top of the image so that they move and scale with it. FreehandView adds event detection, capturing only the touch events it needs so pan and zoom still work normally.

About

Copyright 2015 David Morrissey, and licensed under the Apache License, Version 2.0. No attribution is necessary but it's very much appreciated. Star this project if you like it, and send a link to your project on GitHub or app in Google Play if you'd like me to add it to this page.