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How to save/restore global variables in android even when os kill application
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Closed 5 years ago.
I am facing a problem in y code that I am creating an audio recorder app that saves audio files but for name of the files I am using count variable and initialising it to 0 initially as below
static int count=0;
and then incrementing it for each new recording
but the problem is that till the app is not destroyed count is working fine but after destroying the app when I am again starting the app then count is again initialised with 0 and my previous recordings are overwritten. So how to resolve this issue and make count to increment from where it left off before app was destroyed
You can either use a database (which is probably oversized for your need) or you can persist it as preference(see https://developer.android.com/guide/topics/data/data-storage.html#pref). To save:
SharedPreferences settings = getSharedPreferences(PREFS_NAME, 0);
SharedPreferences.Editor editor = settings.edit();
editor.putBoolean("silentMode", mSilentMode);
// Commit the edits!
editor.commit();
and to read:
// Restore preferences
SharedPreferences settings = getSharedPreferences(PREFS_NAME, 0);
boolean silent = settings.getBoolean("silentMode", false);
setSilent(silent);
Different Storage options in Android
Content Providers
Consider the structured data added to the device from application1 is
not accessible to another application2 present in the same device but
the profile photo added to the device by application1 is available to
the application2 running in the same device
Consider android device as a city, the applications in it are the
houses in the city, people in the houses(application) are the data.
Now content provider is like an broker in the city(android device).
This broker provide access for the people in the city for finding
different houses referring as the content provider in the android
device provide access for the data in the device for different
applications.
Shared Preferences
Consider I have an App say a Face book App which I use to log in to
my account.
Now the very first time I enter my username and password to get
access to my account. Say I log out of the application an hour later
again I use the same Face book App to login again to my application.
I have to enter username and password again to login to my account
and I set a theme to my application and other settings on how my app
looks in my current phone
This is un-necessary because consider I am using my phone to login to
the application. So I will always use my phone to login again and
again, thus entering my credentials again and again is more work
shows it’s not a user friendly app
Shared Preferences is very handy in such scenarios where I can use
its feature to share my data in a xml file Which physically exists in
the Android app installed in my phone which is not destroyed even if
the app is closed. Here we can save user preferences data of the
current application.
As a result next time I open my app in my phone I can see the data
automatically filled in the necessary fields and the settings are
File Storage
In Android we can use the device storage space to store the data in
it for the applications. The type of data involves things such as a
text file, image file, video file, audio file etc.
As seen in the figure as we can see that there are two places we can
do this. One way is to write the raw files into primary /secondary
storage. Another way is to write the cache files into the
primary/secondary storage.
There is also difference between storing raw data and the cache data,
the raw data once stored in memory by user has to be explicitly
deleted by the user explicitly otherwise it would exist till then.
Cache data stored in memory is not a permanent data because the
system automatically deletes it if it feels there is shortage of
memory.
Internal Storage:
Consider a user in an application has stored data in internal
storage, then only that user of that application has access to that
data on the mobile and that data is automatically deleted when the
user uninstalls the application. Speaking of which internal memory is
private.
The apps internal storage directory is stored using the name package
name in a special place in the android file system.
Other apps or users of current app have no access to the file set by
a particular user and a particular app unless it is explicitly made
available to the user for readable/writable access.
SQLite
Sqlite is used to store more structured data locally in a mobile
where the android app is running. Structured data involves as of
which shown in the figure like a student’s information in the form of
rows and columns.
Sqlite offers similar functionality like Mysql and oracle but with
limited functional features. Some of the things involve performing
query operations on tables. There are features though like creating
views but also some features are not available like stored procedure.
Sqlite is very helpful in storing complex and large data which can be
downloaded once and can be used again and again until the application
is running. When the application is closed the sqlite database is
also destroyed.
Putting all the pieces together
Answer credit - Devrath
Related
I'm using Flutter-SQLite-Dart to develop a mobile application that has basic functionality just as Quiz application. I store questions and answers to my local database, when cache is cleared then the stored data gets erased. I need to save those data without getting lost. What methodology to use for achieving a solution for this issue?
For Android, you have two options in App info - clear data(clear storage) and clear cache.
By default, SQLite DB is saved in the internal app data directory, so when you clear the cache(app cache directory), all your DB data are still alive. But if you clear data(clear storage) you remove your DB + cache + other data.
If you want to keep DB after clear data(clear storage) or uninstalling the application, you have some options:
Back up user data with Auto Backup
Auto Backup for Apps automatically backs up a user's data from apps that target and run on Android 6.0 (API level 23) or higher. Android preserves app data by uploading it to the user's Google Drive—where it's protected by the user's Google account credentials. The amount of data is limited to 25MB per user of your app. There's no charge for storing backup data. Your app can customize the backup process
You can try to change the DB saved directory. For example, save it to Documents or so.
Use firebase_database
All those options have pros and cons...
And pay attention please, when the user will try to clear app data, Android will show an alert dialog with the next information:
All this app's data will be deleted permanently. This includes all files, settings, accounts, databases, etc.
The android documentation has the following options below but does not explain what circumstances each is best for. What are the pros and cons of each method? e.g. Under what conditions would SQL be better than Shared Preferences?
Shared Preferences
Internal Storage
External Storage
SQLite Databases
Network Connection
Different Storage options in Android
Content Providers
Consider the structured data added to the device from application1 is
not accessible to another application2 present in the same device but
the profile photo added to the device by application1 is available to
the application2 running in the same device
Consider android device as a city, the applications in it are the
houses in the city, people in the houses(application) are the data.
Now content provider is like an broker in the city(android device).
This broker provide access for the people in the city for finding
different houses referring as the content provider in the android
device provide access for the data in the device for different
applications.
Shared Preferences
Consider I have an App say a Face book App which I use to log in to
my account.
Now the very first time I enter my username and password to get
access to my account. Say I log out of the application an hour later
again I use the same Face book App to login again to my application.
I have to enter username and password again to login to my account
and I set a theme to my application and other settings on how my app
looks in my current phone
This is un-necessary because consider I am using my phone to login to
the application. So I will always use my phone to login again and
again, thus entering my credentials again and again is more work
shows it’s not a user friendly app
Shared Preferences is very handy in such scenarios where I can use
its feature to share my data in a xml file Which physically exists in
the Android app installed in my phone which is not destroyed even if
the app is closed. Here we can save user preferences data of the
current application.
As a result next time I open my app in my phone I can see the data
automatically filled in the necessary fields and the settings are
File Storage
In Android we can use the device storage space to store the data in
it for the applications. The type of data involves things such as a
text file, image file, video file, audio file etc.
As seen in the figure as we can see that there are two places we can
do this. One way is to write the raw files into primary /secondary
storage. Another way is to write the cache files into the
primary/secondary storage.
There is also difference between storing raw data and the cache data,
the raw data once stored in memory by user has to be explicitly
deleted by the user explicitly otherwise it would exist till then.
Cache data stored in memory is not a permanent data because the
system automatically deletes it if it feels there is shortage of
memory.
Internal Storage:
Consider a user in an application has stored data in internal
storage, then only that user of that application has access to that
data on the mobile and that data is automatically deleted when the
user uninstalls the application. Speaking of which internal memory is
private.
The apps internal storage directory is stored using the name package
name in a special place in the android file system.
Other apps or users of current app have no access to the file set by
a particular user and a particular app unless it is explicitly made
available to the user for readable/writable access.
SQLite
Sqlite is used to store more structured data locally in a mobile
where the android app is running. Structured data involves as of
which shown in the figure like a student’s information in the form of
rows and columns.
Sqlite offers similar functionality like Mysql and oracle but with
limited functional features. Some of the things involve performing
query operations on tables. There are features though like creating
views but also some features are not available like stored procedure.
Sqlite is very helpful in storing complex and large data which can be
downloaded once and can be used again and again until the application
is running. When the application is closed the sqlite database is
also destroyed.
Putting all the pieces together
Shared preferences are good for storing ... an application's preferences, and other small bits of data. It's a just really simple persistent string key store for a few data types: boolean, float, int, long and string. So for instance if my app had a login, I might consider storing the session key as string within SharedPreferences.
Internal storage is good for storing application data that the user doesn't need access to, because the user cannot easily access internal storage. Possibly good for caching, logs, other things. Anything that only the app intends to Create Read Update or Delete.
External storage. Great for the opposite of what I just said. The dropbox app probably uses external storage to store the user's dropbox folder, so that the user has easy access to these files outside the dropbox application, for instance, using the file manager.
SQLite databases are great whenever you are going to use a lot of structured data and a relatively rigid schema for managing it. Put in layman's terms, SQLite is like MySQL or PostgreSQL except instead of the database acting as a server daemon which then takes queries from the CGI scripts like php, it is simply stored in a .db file, and accessed and queried through a simple library within the application. While SQLite cannot scale nearly as big as the dedicated databases, it is very quick and convenient for smaller applications, like Android apps. I would use an SQLite db if I were making an app for aggregating and downloading recipes, since that kind of data is relatively structured and a database would allow for it to scale well. Databases are nice because writing all of your data to a file, then parsing it back in your own proprietary format it no fun. Then again, storing data in XML or JSON wouldn't be so bad.
Network connection refers to storing data on the cloud. HTTP or FTP file and content transfers through the java.net.* packages makes this happen.
SharedPreferences is mainly for application-specific settings that you can access via your Settings menu - like application settings. It's a good idea to keep everything simple here - mostly boolean flags, short strings, or integers. SharedPreferences data persist on device reboot, and are removed along with app uninstallation. Data is saved as a key-value pair.
Internal Storage is mostly used for larger non-persistent data storage. You utilize internal storage if you want to process an image, a short video clip, a large text file, etc. But you don't store the processed data in the internal storage - its function is more like a CPU's RAM. The amount of available internal storage for your application depends on the device, but it's always a good idea to keep anything under 1MB. Data is referenced via its file path.
External Storage does not only refer to the SDCard storage, but for higher-end phones, this can mean internal mountable storage (like in the Galaxy Nexus or S2). This is where you store the large video files, the high-resolution images, and the 20-megabyte text file you want to parse in your application. This is also a place to store data that you want shared across devices if you swap sd cards. Data is also referenced via its file path.
SQLite Databases is where you'd store pretty much anything you want in a regular database - with the advantage of organizing things into tables, rows, and columns. It works best with things that you want displayed in the UI as lists - the best example would be the great invention knows as the CursorAdapter. Data stored here also persist on device reboot, and are removed with app uninstallation. You can also share data across applications with sqlite db if you hook it up to a ContentProvider. Data is accessed using a Cursor, where you can call methods as if you're executing sql statements.
Network Connection is not really a data storage technique, but can be a way of persisting data for a specific user provided the device is connected to the internet, using some sort of authentication. You have to balance out between downloading data every time the app needs it, or having a one-time data sync, which would ultimately lead to another of the storage options mentioned above.
Shared preferences are key/value pairs, nothing more. So if you want to keep track of say, students and their test score, it really won't work well for that.
A database is just that, a database. You can define as many columns (and tables) as you need to get the job done.
If it's preferences for your app, use shared preferences (almost any preference I can think of can be done that way), if it's anything else more complicated, use a database.
The android documentation has the following options below but does not explain what circumstances each is best for. What are the pros and cons of each method? e.g. Under what conditions would SQL be better than Shared Preferences?
Shared Preferences
Internal Storage
External Storage
SQLite Databases
Network Connection
Different Storage options in Android
Content Providers
Consider the structured data added to the device from application1 is
not accessible to another application2 present in the same device but
the profile photo added to the device by application1 is available to
the application2 running in the same device
Consider android device as a city, the applications in it are the
houses in the city, people in the houses(application) are the data.
Now content provider is like an broker in the city(android device).
This broker provide access for the people in the city for finding
different houses referring as the content provider in the android
device provide access for the data in the device for different
applications.
Shared Preferences
Consider I have an App say a Face book App which I use to log in to
my account.
Now the very first time I enter my username and password to get
access to my account. Say I log out of the application an hour later
again I use the same Face book App to login again to my application.
I have to enter username and password again to login to my account
and I set a theme to my application and other settings on how my app
looks in my current phone
This is un-necessary because consider I am using my phone to login to
the application. So I will always use my phone to login again and
again, thus entering my credentials again and again is more work
shows it’s not a user friendly app
Shared Preferences is very handy in such scenarios where I can use
its feature to share my data in a xml file Which physically exists in
the Android app installed in my phone which is not destroyed even if
the app is closed. Here we can save user preferences data of the
current application.
As a result next time I open my app in my phone I can see the data
automatically filled in the necessary fields and the settings are
File Storage
In Android we can use the device storage space to store the data in
it for the applications. The type of data involves things such as a
text file, image file, video file, audio file etc.
As seen in the figure as we can see that there are two places we can
do this. One way is to write the raw files into primary /secondary
storage. Another way is to write the cache files into the
primary/secondary storage.
There is also difference between storing raw data and the cache data,
the raw data once stored in memory by user has to be explicitly
deleted by the user explicitly otherwise it would exist till then.
Cache data stored in memory is not a permanent data because the
system automatically deletes it if it feels there is shortage of
memory.
Internal Storage:
Consider a user in an application has stored data in internal
storage, then only that user of that application has access to that
data on the mobile and that data is automatically deleted when the
user uninstalls the application. Speaking of which internal memory is
private.
The apps internal storage directory is stored using the name package
name in a special place in the android file system.
Other apps or users of current app have no access to the file set by
a particular user and a particular app unless it is explicitly made
available to the user for readable/writable access.
SQLite
Sqlite is used to store more structured data locally in a mobile
where the android app is running. Structured data involves as of
which shown in the figure like a student’s information in the form of
rows and columns.
Sqlite offers similar functionality like Mysql and oracle but with
limited functional features. Some of the things involve performing
query operations on tables. There are features though like creating
views but also some features are not available like stored procedure.
Sqlite is very helpful in storing complex and large data which can be
downloaded once and can be used again and again until the application
is running. When the application is closed the sqlite database is
also destroyed.
Putting all the pieces together
Shared preferences are good for storing ... an application's preferences, and other small bits of data. It's a just really simple persistent string key store for a few data types: boolean, float, int, long and string. So for instance if my app had a login, I might consider storing the session key as string within SharedPreferences.
Internal storage is good for storing application data that the user doesn't need access to, because the user cannot easily access internal storage. Possibly good for caching, logs, other things. Anything that only the app intends to Create Read Update or Delete.
External storage. Great for the opposite of what I just said. The dropbox app probably uses external storage to store the user's dropbox folder, so that the user has easy access to these files outside the dropbox application, for instance, using the file manager.
SQLite databases are great whenever you are going to use a lot of structured data and a relatively rigid schema for managing it. Put in layman's terms, SQLite is like MySQL or PostgreSQL except instead of the database acting as a server daemon which then takes queries from the CGI scripts like php, it is simply stored in a .db file, and accessed and queried through a simple library within the application. While SQLite cannot scale nearly as big as the dedicated databases, it is very quick and convenient for smaller applications, like Android apps. I would use an SQLite db if I were making an app for aggregating and downloading recipes, since that kind of data is relatively structured and a database would allow for it to scale well. Databases are nice because writing all of your data to a file, then parsing it back in your own proprietary format it no fun. Then again, storing data in XML or JSON wouldn't be so bad.
Network connection refers to storing data on the cloud. HTTP or FTP file and content transfers through the java.net.* packages makes this happen.
SharedPreferences is mainly for application-specific settings that you can access via your Settings menu - like application settings. It's a good idea to keep everything simple here - mostly boolean flags, short strings, or integers. SharedPreferences data persist on device reboot, and are removed along with app uninstallation. Data is saved as a key-value pair.
Internal Storage is mostly used for larger non-persistent data storage. You utilize internal storage if you want to process an image, a short video clip, a large text file, etc. But you don't store the processed data in the internal storage - its function is more like a CPU's RAM. The amount of available internal storage for your application depends on the device, but it's always a good idea to keep anything under 1MB. Data is referenced via its file path.
External Storage does not only refer to the SDCard storage, but for higher-end phones, this can mean internal mountable storage (like in the Galaxy Nexus or S2). This is where you store the large video files, the high-resolution images, and the 20-megabyte text file you want to parse in your application. This is also a place to store data that you want shared across devices if you swap sd cards. Data is also referenced via its file path.
SQLite Databases is where you'd store pretty much anything you want in a regular database - with the advantage of organizing things into tables, rows, and columns. It works best with things that you want displayed in the UI as lists - the best example would be the great invention knows as the CursorAdapter. Data stored here also persist on device reboot, and are removed with app uninstallation. You can also share data across applications with sqlite db if you hook it up to a ContentProvider. Data is accessed using a Cursor, where you can call methods as if you're executing sql statements.
Network Connection is not really a data storage technique, but can be a way of persisting data for a specific user provided the device is connected to the internet, using some sort of authentication. You have to balance out between downloading data every time the app needs it, or having a one-time data sync, which would ultimately lead to another of the storage options mentioned above.
Shared preferences are key/value pairs, nothing more. So if you want to keep track of say, students and their test score, it really won't work well for that.
A database is just that, a database. You can define as many columns (and tables) as you need to get the job done.
If it's preferences for your app, use shared preferences (almost any preference I can think of can be done that way), if it's anything else more complicated, use a database.
I'm developing a group of complex Android applications that need to share common state and configuration settings.
For example, see this picture explaining my scenario:
I want that APP 1, APP 2 and APP 3 be able to access (read/write) data to the common storage area. Additionally, I need uninstall protection i.e. I don't want the data to be removed when the user uninstalls any of the apps.
I've already read about SQLite databases, ContentProviders and writing on Internal and External storage, but each of the above mentioned methods have disadvantages as listed below:
SQLite database: DB is deleted on app uninstall and is private to each app
ContentProvider: The data is removed when the app with the ContentProvider is removed
Internal storage: Is private to each app and data is deleted on app uninstall (http://developer.android.com/training/basics/data-storage/files.html#InternalVsExternalStorage)
External storage: Is unreliable (user may remove SD card)
Store on server: Not possible, user may not have reliable internet connection
EDIT:
I don't want any dependencies on Google Play Services because I will be distributing the apps via Play Store and as 3rd party downloads.
Please help me out.
Google Drive sort of does this for you. You basically get granted permission to a local filesystem that is backed by a remote one. On most phones this is getting preinstalled so the uninstall issue you are worried about is less of an issue.
You could create a folder for your apps that you can then read/write.
https://developers.google.com/drive/android/
You can use the shared preferences object to read and write preferences data from a file. Most important is to use MODE_MULTI_PROCESS. The bit MODE_MULTI_PROCESS is used if multiple processes are mutating the same SharedPreferences file.
Use the following code:
SharedPreferences shPrefernces = context.getSharedPreferences("filename", MODE_MULTI_PROCESS);
String s1 = shPrefernces.getString("keytosearch1", "");
String pass = shPrefernces.getString("keytosearch2", "");
I agree that Shared Preferences with world_readable will not sufficient for you or sharing across internet is not possible, but still you can do one thing.
Using Broadcast receivers and Custom Broadcasts.
with redundant common data across all apps with shared preferences.
Who updates the data will send a broadcast to system.
All the apps implement broadcast receiver. when ever a new broadcast received they update the data in shared preferences.
App A -> sends broadcast when data is updated.
If App B is installed already App B also receives broadcast and save the data from that intent.
if App B updates new data.
APP B -> sends broadcast for the common data
Other Apps will update data.
Only common data will be lost when all apps are removed. If at least one app is installed data persists.
Preference data will always be stored inside each applications own context. Use sharedUserId and have a new preference file created in all the apps. On opening each app, the app has to check for the preference value from all other applications context and should write into its preference based on last updated time value available in the preference to find the latest updated one.
Whenever any app is opened, the latest data will be stored in its local. if any of the app is installed or uninstalled, this should work fine.
I want to give the user some point when they first install the app (but I want it to device specific). It means if he uninstalls and re-installs he will not get that point again. I have found below methods:
Keep device previous data in shared preferences which will be deleted if I release an updates of the app
Store previous data in sql database but if user clears data from settings it will be lost
Create a file in SDcard store data, saving that file in a folder with .foldername and check the file value, problem is that the user can delete it
Every time the user opens the app it sends device id to server, server will check it is previously stored or not before giving point. Problem is that server maintenance should be avoided.
Other than these 3 methods is there any other method?
Can you suggest me any other way,
or can you please tell me if there is no other method which would be better for 3 and 4?
Variation of 4.
using Google's backup servers, however the user can delete the data through his system settings.