Difference between revisions of "Development/Tutorials/Plasma/AbstractRunner"

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m (The Class Definition (Header file))
(Initializing the Runner)
Line 147: Line 147:
 
== Initializing the Runner ==
 
== Initializing the Runner ==
  
Initialization of the Runner is done in three places: the constructor, init() and in prepareForMatchSession(). The constructor look like this:
+
In typical usage, a Runner plugin is instantiated once and then reused multiple times for different queries. Each time a Runner is launched with a query to match against, it is called from a new thread so some parts of our plugin will need to be thread safe.
  
<code qt n>
+
Initialization of the Runner is done in four parts: the plugin declaration macro, the constructor, init() and in prepareForMatchSession(), none of which need to be thread safe as they are all guaranteed to be called from the main application thread prior to any query matching activity.
 +
 
 +
 
 +
=== The Plugin Declaration Macro ===
 +
 
 +
At the end of our implementation (.cpp) file we have this:
 +
 
 +
<code cppqt>
 +
K_EXPORT_PLASMA_RUNNER(example-homefiles, HomeFilesRunner)
 +
 
 +
#include "homefilesrunner.moc"
 +
</code>
 +
 
 +
The moc file include looks familiar enough from other Qt code, but the macro right above it probably does not. This macro creates the factory functions needed to load the plugin at runtime. The first parameter, example-homefiles, is the same value as the X-KDE-PluginInfo-Name= entry in the .desktop file. The second parameter is the name of the AbstractRunner subclass.
 +
 
 +
=== The Constructor ===
 +
 
 +
The constructor look like this:
 +
 
 +
<code cppqt n>
 
HomeFilesRunner::HomeFilesRunner(QObject *parent, const QVariantList &args)
 
HomeFilesRunner::HomeFilesRunner(QObject *parent, const QVariantList &args)
 
     : AbstractRunner(parent, args)
 
     : AbstractRunner(parent, args)
Line 161: Line 180:
 
}
 
}
 
</code>
 
</code>
 +
 +
The parent and args parameters are critical to the proper loading of the plugin and are passed into the AbstractRunner superclass in the initialization list. In the body of the constructor a number of properties are set, all of which are optional. Often the defaults are good enough, but in some cases it can make quite a difference performance wise to have the right properties set.
 +
 +
The firs property set, on lin 4, is the type of matches to ignore. Before a Runner is passed a query some analysis is performed to determine whether the query might refer to a Directory, File, NetworkLocation, Executable,        ShellCommand, or Help request as define {{class|Plasma::RunnerContext}} in the Type enumeration. There are two special value in that enumeration: UnknownType which signifies a match which does not seem to fit any of the other categories and FileSystem which is a synonym for "Directory | File | Executable | ShellCommand". In our particular case, we only care for files and so skip those types which are probably not files at all. This will prevent our Runner from being launched unnecessarily.
 +
 +
Next we set the expected speed and priority of the runner. These properties affect the scheduling of the Runner when there is a pool of plugins to choose from during query matching. Slower runners are given limited access to the thread pool and lower priority runners are run after higher priority ones have been launched. Speed may be adjusted dynamically at runtime based on real performance, so marking a runner as "slow" will not create a penalty on machines that are faster and likewise setting a runner to "normal" speed may still result in it being demoted to "slow" if it performs poorly.
 +
 +
Finally, setHasRunOptions is called with the true value. This signifies that the matches generated by this Runner plugin can be configured. This is used, for instance, by the shell command runner to allow the user to define a different user to run the command as.
 +
 +
=== init() ===
 +
 +
The init() method is a protected slot. That it is a slot is critical due to an API oddity in AbstractRunner that will be addressed in a future release of the Plasma library (probably KDE5, since it requires a binary incompatible change). The init() method should contain any set up that needs to happen prior to matching queries that should be done exactly once during the lifespan of the plugin.
 +
 +
In the Home Files Runner the init() method is very simple:
 +
 +
<code cppqt n>
 +
void HomeFilesRunner::init()
 +
{
 +
    reloadConfiguration();
 +
    connect(this, SIGNAL(prepare()), this, SLOT(prepareForMatchSession()));
 +
    connect(this, SIGNAL(teardown()), this, SLOT(matchSessionFinished()));
 +
}
 +
</code>
 +
 +
It loads the configuration for the runner (see below) and connects up two critical signals: prepare() and teardown().
 +
 +
init() should <b>not</b> load large amounts of data if unneeded or connect to external sources of information that may wake up the process. A common mistake is to connect to signals in the D-Bus interface of an external application. This results in the application using the Runner plugin to wake up whenever the application it is connected to also wakes up. A better way to do this is to use the prepare() signal.
 +
 +
=== prepare() and teardown() ===
 +
 +
The final place that initialization may occur is in a slot connected to the prepare() signal. This signal is emitted whenever matches for queries are going to commence. Zero, one or more query match requests may then be made after which the teardown() signal will be emitted. These are perfect places to connect to external signals or update data sets as these signals are emitted precisely when the Runner is about to be (or cease being) active.
 +
 +
In our example, we have connected to both signals for example purposes though only the matchSessionFinished() slot does anything actually useful in this case:
 +
 +
<code cppqt>
 +
void HomeFilesRunner::matchSessionFinished()
 +
{
 +
    m_iconCache.clear();
 +
}
 +
</code>
 +
 +
By clearing the icons that we have cached, the Runner is not holding on to memory allocations unnecessarily between queries. Since there may be numerous Runner plugins instantiated, hours or even days between queries and the applications that use Runner plugins such as KRunner are often long-lived this is an important kind of optimization.
  
 
== Registering Matches ==
 
== Registering Matches ==

Revision as of 23:56, 28 October 2009

Creating Runners
Tutorial Series   Plasma
Previous   None
What's Next   n/a
Further Reading   n/a

Contents

Abstract

The Plasma workspace provides an application called KRunner which, among other things, allows one to type into a text area which causes various actions and information that match the text appear as the text is being typed.

This functionality is provided via plugins loaded at runtime called "Runners". These plugins can be used by any application using the Plasma library. This tutorial explores how to create a runner plugin.

Basic Anatomy of a Runner

Plasma::AbstractRunner is the base class of all Runners. It provides the basic structure for Runner plugins to:

  • Perform one-time setup upon creation
  • Perform setup and teardown before and after matching starts
  • Create and register matches for a given search term
  • Define secondary actions for a given match
  • Take action on a given match registered by the runner
  • Show configuration options

In addition to Plasma::AbstractRunner there are three other important classes that we will be using from the Plasma library:

Each of these classes will be covered in more detail as we encounter them in the Runner plugin implementation.

noframe
 
Note
The classes provided by the Plasma library are licensed under the LGPL and can therefore be linked to by code released under a variety of Free/Open Source licenses as well as proprietary licenses.

Creating a Runner Plugin Project

In this tutorial we will be creating a Runner plugin that finds files in the user's home directory that match the query and offers to open them. We begin by setting up the basic project files including a CMakeLists.txt file for building the plugin, a .desktop file to register the plugin, a class definition in a header file and a source code file containing the class implementation.

noframe
 
Note
The example can be found in its entirety in the [KDE Examples module] in the plasma/c++/runner/ directory.

The CMakeLists.txt File

CMake makes it very easy to set up the build system for our plugin:

  1. Project Needs a name, of course

project(runnerexmaple)

set(KDE_MIN_VERSION "4.3.60") # for the < 4.2 macro find_package(KDE4 4.3.60 REQUIRED) include (KDE4Defaults) include (MacroLibrary)

add_definitions(${QT_DEFINITIONS} ${KDE4_DEFINITIONS}) include_directories(${CMAKE_SOURCE_DIR} ${CMAKE_BINARY_DIR} ${KDE4_INCLUDES})

  1. We add our source code here

set(example_SRCS homefilesrunner.cpp)

  1. Now make sure all files get to the right place

kde4_add_plugin(plasma_runner_example_homefiles ${example_SRCS}) target_link_libraries(plasma_runner_example_homefiles ${KDE4_PLASMA_LIBS} ${KDE4_KIO_LIBS})

  1. Install the library and .desktop file

install(TARGETS plasma_runner_example_homefiles DESTINATION ${PLUGIN_INSTALL_DIR}) install(FILES plasma-runner-example-homefiles.desktop DESTINATION ${SERVICES_INSTALL_DIR})

The first 10 lines are pure boilerplate common to any stand-alone KDE project that uses CMake. We add our source code to the project on line 13, define a plugin 16 and what libraries it needs to link to on line 17. Runner plugins always need to link against the Plasma libraries, but may also require other libraries such as the KIO libraries in this case (for usage of KRun to open matching files). Lines 20 and 21 install the library and .desktop file to the appropriate locations.

The .desktop Services File

To register our plugin with the system so that applications such as KRunner are aware of it, we need to create and install a .desktop file that describes the plugin.

By convention, all Runner plugin .desktop file names start with "plasma-runner-" followed by a unique name part (in this case "example-homefiles") and suffixed with ".desktop".

The contents of this file, as seen below, contain the name, description and technical details about the plugin.

[Desktop Entry] Name=Home Files Comment=Part of a tutorial demonstrating how to create Runner plugins Type=Service X-KDE-ServiceTypes=Plasma/Runner

X-KDE-Library=plasma_runner_example_homefiles X-KDE-PluginInfo-Author=Aaron Seigo X-KDE-PluginInfo-Email=aseigo@kde.org X-KDE-PluginInfo-Name=example-homefiles X-KDE-PluginInfo-Version=0.1 X-KDE-PluginInfo-Website=http://plasma.kde.org/ X-KDE-PluginInfo-Category=Examples X-KDE-PluginInfo-Depends= X-KDE-PluginInfo-License=GPL X-KDE-PluginInfo-EnabledByDefault=true

There are four entries in the .desktop file in particular that are critical to the proper functioning of the plugin: Type, X-KDE-ServiceTypes, X-KDE-Library and X-KDE-PluginInfo-Name.

The Type entry tells the system that this is a plugin (or "Service") and the ServiceTypes entry defines this plugin as being a Runner. These two key-value pairs are the same in all runners. The X-KDE-PluginInfo-Name entry is used internally to map configuration data to this runner; its value must be unique among all other installed runners on the system. The X-KDE-Library entry must match the name of the library defined in the CMakeLists.txt file.

The other entries such as Name, Description, licensing and authorship are information and may be shown in the user interface but have no other technical importance. Try to avoid using jargon in the Name and Description entries, however, to make it easy for people to understand what your plugin does.

The Class Definition (Header file)

Our class definition for this project looks as follows:

  1. ifndef HOMEFILES_H
  2. define HOMEFILES_H
  1. include <Plasma/AbstractRunner>
  1. include <QHash>
  1. include <KIcon>

class HomeFilesRunner : public Plasma::AbstractRunner {

   Q_OBJECT

public:

   HomeFilesRunner(QObject *parent, const QVariantList &args);
   void match(Plasma::RunnerContext &context);
   void run(const Plasma::RunnerContext &context, const Plasma::QueryMatch &match);
   void createRunOptions(QWidget *widget);
   void reloadConfiguration();

protected Q_SLOTS:

   void init();
   void prepareForMatchSession();
   void matchSessionFinished();

private:

   QHash<QString, KIcon> m_iconCache;
   QString m_path;
   QString m_triggerWord;

};

  1. endif

Even though it's a full featured Runner plugin it is just a handful of methods, each of which will be examined.

Initializing the Runner

In typical usage, a Runner plugin is instantiated once and then reused multiple times for different queries. Each time a Runner is launched with a query to match against, it is called from a new thread so some parts of our plugin will need to be thread safe.

Initialization of the Runner is done in four parts: the plugin declaration macro, the constructor, init() and in prepareForMatchSession(), none of which need to be thread safe as they are all guaranteed to be called from the main application thread prior to any query matching activity.


The Plugin Declaration Macro

At the end of our implementation (.cpp) file we have this:

K_EXPORT_PLASMA_RUNNER(example-homefiles, HomeFilesRunner)

  1. include "homefilesrunner.moc"

The moc file include looks familiar enough from other Qt code, but the macro right above it probably does not. This macro creates the factory functions needed to load the plugin at runtime. The first parameter, example-homefiles, is the same value as the X-KDE-PluginInfo-Name= entry in the .desktop file. The second parameter is the name of the AbstractRunner subclass.

The Constructor

The constructor look like this:

HomeFilesRunner::HomeFilesRunner(QObject *parent, const QVariantList &args)

   : AbstractRunner(parent, args)

{

   setIgnoredTypes(Plasma::RunnerContext::NetworkLocation |
                   Plasma::RunnerContext::Executable |
                   Plasma::RunnerContext::ShellCommand);
   setSpeed(SlowSpeed);
   setPriority(LowPriority);
   setHasRunOptions(true);

}

The parent and args parameters are critical to the proper loading of the plugin and are passed into the AbstractRunner superclass in the initialization list. In the body of the constructor a number of properties are set, all of which are optional. Often the defaults are good enough, but in some cases it can make quite a difference performance wise to have the right properties set.

The firs property set, on lin 4, is the type of matches to ignore. Before a Runner is passed a query some analysis is performed to determine whether the query might refer to a Directory, File, NetworkLocation, Executable, ShellCommand, or Help request as define Plasma::RunnerContext in the Type enumeration. There are two special value in that enumeration: UnknownType which signifies a match which does not seem to fit any of the other categories and FileSystem which is a synonym for "Directory | File | Executable | ShellCommand". In our particular case, we only care for files and so skip those types which are probably not files at all. This will prevent our Runner from being launched unnecessarily.

Next we set the expected speed and priority of the runner. These properties affect the scheduling of the Runner when there is a pool of plugins to choose from during query matching. Slower runners are given limited access to the thread pool and lower priority runners are run after higher priority ones have been launched. Speed may be adjusted dynamically at runtime based on real performance, so marking a runner as "slow" will not create a penalty on machines that are faster and likewise setting a runner to "normal" speed may still result in it being demoted to "slow" if it performs poorly.

Finally, setHasRunOptions is called with the true value. This signifies that the matches generated by this Runner plugin can be configured. This is used, for instance, by the shell command runner to allow the user to define a different user to run the command as.

init()

The init() method is a protected slot. That it is a slot is critical due to an API oddity in AbstractRunner that will be addressed in a future release of the Plasma library (probably KDE5, since it requires a binary incompatible change). The init() method should contain any set up that needs to happen prior to matching queries that should be done exactly once during the lifespan of the plugin.

In the Home Files Runner the init() method is very simple:

void HomeFilesRunner::init() {

   reloadConfiguration();
   connect(this, SIGNAL(prepare()), this, SLOT(prepareForMatchSession()));
   connect(this, SIGNAL(teardown()), this, SLOT(matchSessionFinished()));

}

It loads the configuration for the runner (see below) and connects up two critical signals: prepare() and teardown().

init() should not load large amounts of data if unneeded or connect to external sources of information that may wake up the process. A common mistake is to connect to signals in the D-Bus interface of an external application. This results in the application using the Runner plugin to wake up whenever the application it is connected to also wakes up. A better way to do this is to use the prepare() signal.

prepare() and teardown()

The final place that initialization may occur is in a slot connected to the prepare() signal. This signal is emitted whenever matches for queries are going to commence. Zero, one or more query match requests may then be made after which the teardown() signal will be emitted. These are perfect places to connect to external signals or update data sets as these signals are emitted precisely when the Runner is about to be (or cease being) active.

In our example, we have connected to both signals for example purposes though only the matchSessionFinished() slot does anything actually useful in this case:

void HomeFilesRunner::matchSessionFinished() {

   m_iconCache.clear();

}

By clearing the icons that we have cached, the Runner is not holding on to memory allocations unnecessarily between queries. Since there may be numerous Runner plugins instantiated, hours or even days between queries and the applications that use Runner plugins such as KRunner are often long-lived this is an important kind of optimization.

Registering Matches

Taking Action On Matches

Configuration Interfaces

Runner Options

Match Result Options


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