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{{Template:I18n/Language Navigation Bar|Development/Tutorials/Akonadi/Application}}
 


{{TutorialBrowser|
{{TutorialBrowser|
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series=[[Development/Tutorials#Personal_Information_Management_.28Akonadi.29|Akonadi Tutorial]]|
series=[[Development/Tutorials#Personal_Information_Management_.28Akonadi.29|Akonadi Tutorial]]|


name=Using your own data type with Akonadi|
name=Creating an Akonadi application|


pre=[http://mindview.net/Books/TICPP/ThinkingInCPP2e.html C++], [http://www.trolltech.com/products/qt/ Qt], [[Getting_Started/Build|KDE development environment]]|
pre=[http://mindview.net/Books/TICPP/ThinkingInCPP2e.html C++], [http://www.trolltech.com/products/qt/ Qt], [[Getting_Started/Build|KDE development environment]]|
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We can kick-start the application by using '''KAppTemplate''', which can be found as '''KDE template generator''' in the development section of the K-menu, or by running '''kapptemplate''' in a terminal window.
We can kick-start the application by using '''KAppTemplate''', which can be found as '''KDE template generator''' in the development section of the K-menu, or by running '''kapptemplate''' in a terminal window.


First, we select the '''KDE4 GUI Application''' in the C++ section of the program, give our project a name and continue through the following pages to complete the template creation.
First, we select the '''KDE Framework C++''' in the <menuchoice>Qt</menuchoice> &rarr; <menuchoice>Graphical</menuchoice> section of the program, give our project a name and continue through the following pages to complete the template creation.


[[Image:TutorialAkonadiDetacherTemplate.png]]
[[File:TutorialAkonadiDetacherTemplate.png|500px|center]]


A look at the generated project top level directory shows us the following files:
A look at the generated project top level directory shows us the following files:
<syntaxhighlight lang="bash">
<syntaxhighlight lang="bash">
CMakeLists.txt
CMakeLists.txt
detacher/
COPYING
COPYING.DOC
Messages.sh
README
doc/
doc/
icons/
icons/
README
src/
src/
</syntaxhighlight>
</syntaxhighlight>
Line 49: Line 51:
<syntaxhighlight lang="bash">
<syntaxhighlight lang="bash">
CMakeLists.txt
CMakeLists.txt
detacher.cpp
DetacherSettings.kcfg
detacher.desktop
DetacherSettings.kcfgc
detacher.h
detacher.kcfg
detacherui.rc
detacherui.rc
detacherview_base.ui
detacherview.cpp
detacherview.cpp
detacherview.h
detacherview.h
detacherview.ui
detacherwindow.cpp
detacherwindow.h
main.cpp
main.cpp
Messages.sh
org.example.detacher.appdata.xml
settings.kcfgc
org.example.detacher.desktop
prefs_base.ui
settings.ui
</syntaxhighlight>
</syntaxhighlight>


At this stage it is already possible to compile the application, so we can already check if our development environment is setup correctly by creating the build directory and having CMake either generate Makefiles or a KDevelop project file.
At this stage it is already possible to compile the application, so we can already check if our development environment is setup correctly by creating the build directory and having CMake either generate Makefiles or import the project in KDevelop.


=== Generating Makefiles ===
=== Generating Makefiles ===
Line 75: Line 77:
and run the build using make as usual.
and run the build using make as usual.


=== Generating a KDevelop project file ===
<!--=== Generating a KDevelop project file ===


From within the generated top level directory:
From within the generated top level directory:
Line 83: Line 85:
cmake -DCMAKE_BUILD_TYPE=debugfull -G KDevelop3 ..
cmake -DCMAKE_BUILD_TYPE=debugfull -G KDevelop3 ..
</syntaxhighlight>
</syntaxhighlight>
and open the generated project with KDevelop and run the build process from there.
and open the generated project with KDevelop and run the build process from there.-->


=== Adjusting the main Qt Designer file ===
=== Adjusting the main Qt Designer file ===


Open the file '''detacherview_base.ui''' in Qt Designer and remove the example label.
Open the file '''detacherview.ui''' in Qt Designer and remove the example label.
Remove the widget's main layout by clicking on the now empty widget and use the '''Break Layout''' menu entry in the '''Form''' menu.
Remove the widget's main layout by clicking on the now empty widget and use the '''Break Layout''' menu entry in the '''Lay out''' menu.


Now, from left to right, place two '''Tree Views''' and one '''List Widget''' side-by-side.
Now, from left to right, place two '''Tree Views''' and one '''List Widget''' side-by-side.
Select all three boxes by holding SHIFT and clicking each box with the left mouse button.
Select all three boxes in the object inspector docker by holding <keycap>SHIFT</keycap> and clicking each box with the left mouse button.
Use '''Layout Horizontally in a Splitter''' in the '''Form''' menu and then create a main layout by clicking on their parent widget and using '''Layout Vertically''' in the '''Form''' menu.
Use '''Layout Horizontally in a Splitter''' in the '''Lay out''' menu and then create a main layout by clicking on their parent widget and using '''Layout Vertically''' in the '''Lay out''' menu.
 
A preview ({{Menu|Form|Preview}}) should now look like this:


A preview ('''Form''' -> '''Preview''') should now look like this:
[[File:TutorialAkonadiDetacherPreview.png|450px|center]]
[[Image:TutorialAkonadiDetacherPreview.png]]


Finally, change the object names for the three widgets by right clicking it and choosing '''Change objectName'''. The left widget should be named '''folderView''', the middle one '''messageView''' and the right one '''attachmentList'''.
Finally, change the object names for the three widgets by right clicking it and choosing '''Change objectName'''. The left widget should be named '''folderView''', the middle one '''messageView''' and the right one '''attachmentList'''.
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== Promoting Views ==
== Promoting Views ==


The [http://api.kde.org/4.x-api/kdepimlibs-apidocs/akonadi/html/index.html KDE client library for Akonadi] has a couple of convenience classes which make our life as application developers more pleasant.
The [https://api.kde.org/kdepim/akonadi/html/index.html KDE client library for Akonadi] has a couple of convenience classes which make our life as application developers more pleasant.
Two of these classes are specialized view widgets, one for displaying collections and one for displaying items.
Two of these classes are specialized view widgets, one for displaying collections and one for displaying items.


Line 112: Line 115:
Right click the left widget and choose '''Promote to'''. Then fill the form like shown in the next screenshot.
Right click the left widget and choose '''Promote to'''. Then fill the form like shown in the next screenshot.


[[Image:TutorialAkonadiDetacherPromote.png]]
[[File:TutorialAkonadiDetacherPromote.png|450px|center]]


Click add and promote. Repeat the same for the middle widget, this time using '''Akonadi::ItemView''' as the class name and '''akonadi/itemview.h''' for the header file.
Click add and promote. Repeat the same for the middle widget, this time using '''Akonadi::ItemView''' as the class name and {{Path|itemview.h}} for the header file.


This change also requires a change in the '''CMakeLists.txt''' file in the top level directory and in the one from the source directory.
This change also requires a change in the {{Path|CMakeLists.txt}} file in the top level directory and in the one from the source directory.


In the file from the top level directory add the following line
In the file from the top level directory add the following line
<syntaxhighlight lang="cmake">
<syntaxhighlight lang="cmake">
find_package (KdepimLibs REQUIRED)
set(LIBKDEPIM_VERSION "5.11.0")
</syntaxhighlight>


and change
# Find KdepimLibs Package
 
find_package(KF5Akonadi ${LIBKDEPIM_VERSION} CONFIG REQUIRED)
<syntaxhighlight lang="cmake">
find_package(KF5Libkdepim ${LIBKDEPIM_VERSION} CONFIG REQUIRED)
include_directories( ${KDE4_INCLUDES} ${QT_INCLUDES} )
</syntaxhighlight>
</syntaxhighlight>


into
and add new target library in {{Path|src/CMakeLists.txt}}


<syntaxhighlight lang="cmake">
<syntaxhighlight lang="cmake">
include_directories( ${KDE4_INCLUDES} ${KDEPIMLIBS_INCLUDE_DIRS} ${QT_INCLUDES} )
target_link_libraries(detacher
</syntaxhighlight>
    ...
 
    KF5::AkonadiCore
In the file from the source directory the line
    KF5::AkonadiAgentBase
<syntaxhighlight lang="cmake">
    KF5::AkonadiWidgets
target_link_libraries(detacher ${KDE4_KDEUI_LIBS})
    KF5::AkonadiXml
</syntaxhighlight>
)
 
has to be changed to
 
<syntaxhighlight lang="cmake">
target_link_libraries(detacher ${KDE4_KDEUI_LIBS} ${KDEPIMLIBS_AKONADI_LIBS})
</syntaxhighlight>
</syntaxhighlight>


Line 149: Line 145:


Since the application will depend on Akonadi running, we can ensure this by starting it if it is not.
Since the application will depend on Akonadi running, we can ensure this by starting it if it is not.
This is handled by the [http://api.kde.org/4.x-api/kdepimlibs-apidocs/akonadi/html/classAkonadi_1_1Control.html Akonadi::Control] class.
This is handled by the [https://api.kde.org/kdepim/akonadi/html/classAkonadi_1_1Control.html Akonadi::Control] class.


In '''detacher.h''' we add another slot called '''delayedInit()''' which will perform this initialization.
In {{Path|detacherwindow.h}} we add another slot called '''delayedInit()''' which will perform this initialization.
A slot so we can delay its executing using a single shot timer, a technique called "Delayed Initialization", i.e. letting the application create and show its GUI as fast as possible and do any probably time consuming initialization after that.
A slot so we can delay its executing using a single shot timer, a technique called "Delayed Initialization", i.e. letting the application create and show its GUI as fast as possible and do any probably time consuming initialization after that.


<syntaxhighlight lang="cpp-qt">
<syntaxhighlight lang="cpp-qt">
private slots:
private Q_SLOTS:
     void fileNew();
     void fileNew();
     void optionsPreferences();
     void settingsConfigure();
     void delayedInit();
     void delayedInit();
</syntaxhighlight>
</syntaxhighlight>


In '''detacher.cpp''' we need two new include directives:
In {{Path|detacherwindow.cpp}} we need two new include directives:
<syntaxhighlight lang="cpp-qt">
<syntaxhighlight lang="cpp-qt">
#include <QtCore/QTimer>
#include <QtCore/QTimer>


#include <akonadi/control.h>
#include <control.h>
</syntaxhighlight>
</syntaxhighlight>


and the slot's implementation
and the slot's implementation
<syntaxhighlight lang="cpp-qt">
<syntaxhighlight lang="cpp-qt">
void Detacher::delayedInit()
void DetacherWindow::delayedInit()
{
{
     if ( !Akonadi::Control::start( this ) ) {
     if (!Akonadi::Control::start() ) {
         qApp->exit( -1 );
         qApp->exit(-1);
         return;
         return;
     }
     }
Line 184: Line 180:


<syntaxhighlight lang="cpp-qt">
<syntaxhighlight lang="cpp-qt">
QTimer::singleShot( 0, this, SLOT( delayedInit() ) );
QTimer::singleShot(0, this, &DetacherWindow::delayedInit);
</syntaxhighlight>
</syntaxhighlight>


Lets add a new public method to the view class. In '''detacherview.h''' add
Lets add a new public method to the view class. In {{Path|detacherview.h}} add


<syntaxhighlight lang="cpp-qt">
<syntaxhighlight lang="cpp-qt">
Line 193: Line 189:
</syntaxhighlight>
</syntaxhighlight>


and for now with an empty body in '''detacherview.cpp''' (we will get to the implementation shortly)
and for now with an empty body in {{Path|detacherview.cpp}} (we will get to the implementation shortly)
<syntaxhighlight lang="cpp-qt">
<syntaxhighlight lang="cpp-qt">
void DetacherView::createModels()
void DetacherView::createModels()
Line 200: Line 196:
</syntaxhighlight>
</syntaxhighlight>


and call it from '''Detacher::delayedInit()''' after the Akonadi start succeeded
and call it from '''DetacherWindow::delayedInit()''' after the Akonadi start succeeded


<syntaxhighlight lang="cpp-qt">
<syntaxhighlight lang="cpp-qt">
void Detacher::delayedInit()
void DetacherWindow::delayedInit()
{
{
     if ( !Akonadi::Control::start( this ) ) {
     if (!Akonadi::Control::start() ) {
         qApp->exit( -1 );
         qApp->exit(-1);
         return;
         return;
     }
     }
 
     m_detacherView->createModels();
     m_view->createModels();
}
}
</syntaxhighlight>
</syntaxhighlight>
Line 220: Line 215:
Actually, the data type the application will be working on, MIME messages, has an even further specialized model in a type specific sub library.
Actually, the data type the application will be working on, MIME messages, has an even further specialized model in a type specific sub library.


To properly link this additional libraries change the source directory's '''CMakeLists.txt''' to this
First we need to add two new KDE PIM library, in the {{Path|CMakeLists.txt}}.
<syntaxhighlight lang="cmake">
<syntaxhighlight lang="cmake">
target_link_libraries(detacher ${KDE4_KDEUI_LIBS} ${KDEPIMLIBS_AKONADI_LIBS} ${KDEPIMLIBS_AKONADI_KMIME_LIBS} ${KDEPIMLIBS_KMIME_LIBS})
find_package(KF5AkonadiMime ${LIBKDEPIM_VERSION} CONFIG REQUIRED)
find_package(KF5Mime ${LIBKDEPIM_VERSION} CONFIG REQUIRED)
</syntaxhighlight>
</syntaxhighlight>


In '''detacherview.cpp'' add the following include directives
To properly link this additional libraries change the source directory's {{Path|src/CMakeLists.txt}} to this
<syntaxhighlight lang="cmake">
target_link_libraries(detacher
    ...
    KF5::Mime
    KF5::AkonadiMime
)
</syntaxhighlight>
 
In {{Path|detacherview.cpp}} add the following include directives


<syntaxhighlight lang="cpp-qt">
<syntaxhighlight lang="cpp-qt">
#include <akonadi/collectionfilterproxymodel.h>
#include <CollectionFilterProxyModel>
#include <akonadi/collectionmodel.h>
#include <MessageModel>
#include <akonadi/kmime/messagemodel.h>
#include <Monitor>
#include <EntityTreeModel>
</syntaxhighlight>
</syntaxhighlight>


Line 238: Line 244:
void DetacherView::createModels()
void DetacherView::createModels()
{
{
     Akonadi::CollectionModel *collectionModel = new Akonadi::CollectionModel( this );
     Akonadi::Monitor *monitor = new Akonadi::Monitor(this);
    monitor->setObjectName(QStringLiteral("CollectionWidgetMonitor"));
    monitor->fetchCollection(true);
    monitor->setAllMonitored(true);


     Akonadi::CollectionFilterProxyModel *filterModel = new Akonadi::CollectionFilterProxyModel( this );
     Akonadi::EntityTreeModel *treeModel = new Akonadi::EntityTreeModel(monitor, this);
    filterModel->setSourceModel( collectionModel );
    filterModel->addMimeTypeFilter( QLatin1String( "message/rfc822" ) );


     Akonadi::ItemModel *itemModel = new Akonadi::MessageModel( this );
     Akonadi::CollectionFilterProxyModel *filterModel = new Akonadi::CollectionFilterProxyModel(this);
    filterModel->setSourceModel(treeModel);
    filterModel->addMimeTypeFilter(QLatin1String("message/rfc822"));


     ui_detacherview_base.folderView->setModel( filterModel );
     Akonadi::ItemModel *itemModel = new Akonadi::MessageModel(this);
    ui_detacherview_base.messageView->setModel( itemModel );


     connect( ui_detacherview_base.folderView, SIGNAL( currentChanged( Akonadi::Collection ) ),
    m_ui.folderView->setModel(filterModel);
             itemModel, SLOT( setCollection( Akonadi::Collection ) ) );
    m_ui.messageView->setModel(itemModel);
 
     connect(m_ui.folderView, SIGNAL(currentChanged(Akonadi::Collection)),
             itemModel, SLOT(setCollection(Akonadi::Collection)));
}
}
</syntaxhighlight>
</syntaxhighlight>


TODO Update this paragraph
The first line creates a [http://api.kde.org/4.x-api/kdepimlibs-apidocs/akonadi/html/classAkonadi_1_1CollectionModel.html CollectionModel] which will get all "folders" from Akonadi and keep this data updated as long as the application is running.
The first line creates a [http://api.kde.org/4.x-api/kdepimlibs-apidocs/akonadi/html/classAkonadi_1_1CollectionModel.html CollectionModel] which will get all "folders" from Akonadi and keep this data updated as long as the application is running.


However, since this includes collections for other data types as well, we need to filter for the data type we are interested in, MIME messages or in terms of MIME type '''message/rfc822'''.
However, since this includes collections for other data types as well, we need to filter for the data type we are interested in, MIME messages or in terms of MIME type '''message/rfc822'''.
This kind of filtering is conveniently supplied in the form of a proxy model called [http://api.kde.org/4.x-api/kdepimlibs-apidocs/akonadi/html/classAkonadi_1_1CollectionFilterProxyModel.html CollectionFilterProxyModel].
This kind of filtering is conveniently supplied in the form of a proxy model called [https://api.kde.org/kdepim/akonadi/html/classAkonadi_1_1CollectionFilterProxyModel.html CollectionFilterProxyModel].


The next model, [http://api.kde.org/4.x-api/kdepimlibs-apidocs/akonadi/html/classAkonadi_1_1MessageModel.html MessageModel] is an [http://api.kde.org/4.x-api/kdepimlibs-apidocs/akonadi/html/classAkonadi_1_1ItemModel.html ItemModel] specialized in dealing with our data type, messages.
The next model, [https://api.kde.org/kdepim/akonadi-mime/html/classAkonadi_1_1MessageModel.html MessageModel] is an [https://api.kde.org/kdepim/akonadi/html/classAkonadi_1_1ItemModel.html ItemModel] specialized in dealing with our data type, messages.


Setting the models on the respective view almost completes the setup process, the only thing left is to connect the [http://api.kde.org/4.x-api/kdepimlibs-apidocs/akonadi/html/classAkonadi_1_1CollectionView.html CollectionView] to the MessageModel so it changes its data depending on which folder gets selected.
Setting the models on the respective view almost completes the setup process, the only thing left is to connect the [https://api.kde.org/kdepim/akonadi/html/classAkonadi_1_1CollectionView.html CollectionView] to the MessageModel so it changes its data depending on which folder gets selected.


At this stage the application is already capable of showing all your mail folders and headers of all your e-mails!
At this stage the application is already capable of showing all your mail folders and headers of all your e-mails!
[[File:TutorialAkonadiDetacherConnectingView.png|450px|center]]


== Getting at the Attachments ==
== Getting at the Attachments ==
Line 534: Line 548:
[[Category:Tutorial]]
[[Category:Tutorial]]
[[Category:C++]]
[[Category:C++]]
[[Category:KDE4]]
[[Category:KF5]]
[[Category:Akonadi]]
[[Category:Akonadi]]
[[Category:PIM]]
[[Category:PIM]]

Latest revision as of 17:47, 28 February 2021


Creating an Akonadi application
Tutorial Series   Akonadi Tutorial
Previous   C++, Qt, KDE development environment
What's Next  
Further Reading   CMake, Akonadi Development Tools

This tutorial will guide you through the steps of creating an Akonadi application, an end user program which displays and manipulates PIM data provided by Akonadi.

If you are looking for a tutorial on how to provide data for Akonadi see the Akonadi Resource Tutorial

Prerequisites

Warning
This section needs improvements: Please help us to

cleanup confusing sections and fix sections which contain a todo


Describe required versions and build setup

Tutorial Example

The goal of the tutorial is to create a simple application allowing a user to "detach" attachments from e-mails, i.e. save them to disk and remove them from the message.

To stay concentrated on Akonadi related steps, all general application or GUI related steps will done in a minimal fashion.

Preparation

We can kick-start the application by using KAppTemplate, which can be found as KDE template generator in the development section of the K-menu, or by running kapptemplate in a terminal window.

First, we select the KDE Framework C++ in the QtGraphical section of the program, give our project a name and continue through the following pages to complete the template creation.

A look at the generated project top level directory shows us the following files:

CMakeLists.txt
COPYING
COPYING.DOC
Messages.sh
README
doc/
icons/
src/

and the following files in sub directory src:

CMakeLists.txt
DetacherSettings.kcfg
DetacherSettings.kcfgc
detacherui.rc
detacherview.cpp
detacherview.h
detacherview.ui
detacherwindow.cpp
detacherwindow.h
main.cpp
org.example.detacher.appdata.xml
org.example.detacher.desktop
settings.ui

At this stage it is already possible to compile the application, so we can already check if our development environment is setup correctly by creating the build directory and having CMake either generate Makefiles or import the project in KDevelop.

Generating Makefiles

From within the generated top level directory:

mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=debugfull ..

and run the build using make as usual.


Adjusting the main Qt Designer file

Open the file detacherview.ui in Qt Designer and remove the example label. Remove the widget's main layout by clicking on the now empty widget and use the Break Layout menu entry in the Lay out menu.

Now, from left to right, place two Tree Views and one List Widget side-by-side. Select all three boxes in the object inspector docker by holding SHIFT and clicking each box with the left mouse button. Use Layout Horizontally in a Splitter in the Lay out menu and then create a main layout by clicking on their parent widget and using Layout Vertically in the Lay out menu.

A preview ( Form Preview ) should now look like this:

Finally, change the object names for the three widgets by right clicking it and choosing Change objectName. The left widget should be named folderView, the middle one messageView and the right one attachmentList.

In order to make it build again, edit the file detacherview.cpp and remove the code from the settingsChanged method. The application should now build again and be able to run.

Note
A lot of other code of this generated files is not necessary either, feel free to do more cleanup yourself.


Promoting Views

The KDE client library for Akonadi has a couple of convenience classes which make our life as application developers more pleasant. Two of these classes are specialized view widgets, one for displaying collections and one for displaying items.

In order to use these widgets instead of ones from Qt we need to use a Qt Designer feature called "promoting". Right click the left widget and choose Promote to. Then fill the form like shown in the next screenshot.

Click add and promote. Repeat the same for the middle widget, this time using Akonadi::ItemView as the class name and itemview.h for the header file.

This change also requires a change in the CMakeLists.txt file in the top level directory and in the one from the source directory.

In the file from the top level directory add the following line

set(LIBKDEPIM_VERSION "5.11.0")

# Find KdepimLibs Package
find_package(KF5Akonadi ${LIBKDEPIM_VERSION} CONFIG REQUIRED)
find_package(KF5Libkdepim ${LIBKDEPIM_VERSION} CONFIG REQUIRED)

and add new target library in src/CMakeLists.txt

target_link_libraries(detacher
    ...
    KF5::AkonadiCore
    KF5::AkonadiAgentBase
    KF5::AkonadiWidgets
    KF5::AkonadiXml
)

Initialization

Since the application will depend on Akonadi running, we can ensure this by starting it if it is not. This is handled by the Akonadi::Control class.

In detacherwindow.h we add another slot called delayedInit() which will perform this initialization. A slot so we can delay its executing using a single shot timer, a technique called "Delayed Initialization", i.e. letting the application create and show its GUI as fast as possible and do any probably time consuming initialization after that.

private Q_SLOTS:
    void fileNew();
    void settingsConfigure();
    void delayedInit();

In detacherwindow.cpp we need two new include directives:

#include <QtCore/QTimer>

#include <control.h>

and the slot's implementation

void DetacherWindow::delayedInit()
{
    if (!Akonadi::Control::start() ) {
        qApp->exit(-1);
        return;
    }
}

If the application fails to start Akonadi, it simply quits. A real application should probably tell the user about that though.

Since we want the slot to be executed delayed, add the following line at the end of the class' constructor

QTimer::singleShot(0, this, &DetacherWindow::delayedInit);

Lets add a new public method to the view class. In detacherview.h add

void createModels();

and for now with an empty body in detacherview.cpp (we will get to the implementation shortly)

void DetacherView::createModels()
{
}

and call it from DetacherWindow::delayedInit() after the Akonadi start succeeded

void DetacherWindow::delayedInit()
{
    if (!Akonadi::Control::start() ) {
        qApp->exit(-1);
        return;
    }
    m_detacherView->createModels();
}

Connecting Views to Akonadi

The actual data connection between our views and Akonadi is conveniently handled by specialized models which are also provided by the KDE client library for Akonadi.

Actually, the data type the application will be working on, MIME messages, has an even further specialized model in a type specific sub library.

First we need to add two new KDE PIM library, in the CMakeLists.txt.

find_package(KF5AkonadiMime ${LIBKDEPIM_VERSION} CONFIG REQUIRED)
find_package(KF5Mime ${LIBKDEPIM_VERSION} CONFIG REQUIRED)

To properly link this additional libraries change the source directory's src/CMakeLists.txt to this

target_link_libraries(detacher
    ...
    KF5::Mime
    KF5::AkonadiMime
)

In detacherview.cpp add the following include directives

#include <CollectionFilterProxyModel>
#include <MessageModel>
#include <Monitor>
#include <EntityTreeModel>

With that we can now properly implement the createModels() method:

void DetacherView::createModels()
{
    Akonadi::Monitor *monitor = new Akonadi::Monitor(this);
    monitor->setObjectName(QStringLiteral("CollectionWidgetMonitor"));
    monitor->fetchCollection(true);
    monitor->setAllMonitored(true);

    Akonadi::EntityTreeModel *treeModel = new Akonadi::EntityTreeModel(monitor, this);

    Akonadi::CollectionFilterProxyModel *filterModel = new Akonadi::CollectionFilterProxyModel(this);
    filterModel->setSourceModel(treeModel);
    filterModel->addMimeTypeFilter(QLatin1String("message/rfc822"));

    Akonadi::ItemModel *itemModel = new Akonadi::MessageModel(this);

    m_ui.folderView->setModel(filterModel);
    m_ui.messageView->setModel(itemModel);

    connect(m_ui.folderView, SIGNAL(currentChanged(Akonadi::Collection)),
             itemModel, SLOT(setCollection(Akonadi::Collection)));
}

TODO Update this paragraph The first line creates a CollectionModel which will get all "folders" from Akonadi and keep this data updated as long as the application is running.

However, since this includes collections for other data types as well, we need to filter for the data type we are interested in, MIME messages or in terms of MIME type message/rfc822. This kind of filtering is conveniently supplied in the form of a proxy model called CollectionFilterProxyModel.

The next model, MessageModel is an ItemModel specialized in dealing with our data type, messages.

Setting the models on the respective view almost completes the setup process, the only thing left is to connect the CollectionView to the MessageModel so it changes its data depending on which folder gets selected.

At this stage the application is already capable of showing all your mail folders and headers of all your e-mails!

Getting at the Attachments

This task can be split into two steps:

  • Getting the message from Akonadi
  • Getting the attachments from the message

Getting the message from Akonadi

While we could have instructed the MessageModel to get all data for each of its entries, the proper way is to retrieve it only for the items that get selected. Moreover we want to do this asynchronously because we don't want to block the application even is a message is really huge.

The KDE client library for Akonadi offers this kind of functionality through a job-based API, in this case ItemFetchJob.

Using this is quite simple. First we add a new include and a class forward declaration for detacherview.h

#include <akonadi/item.h>
class KJob;

In the private member section add an Item member:

private:
    Ui::detacherview_base ui_detacherview_base;

    Akonadi::Item mItem;

and two new slots in the private slots section:

private slots:
    void switchColors();
    void settingsChanged();

    void itemChanged( const Akonadi::Item &item );
    void itemFetchDone( KJob *job );

In the source file detacherview.cpp two new includes are required

#include <akonadi/itemfetchjob.h>
#include <akonadi/itemfetchscope.h>

for the implementation of the two new slots

void DetacherView::itemChanged( const Akonadi::Item &item )
{
    // clear attachment list
    ui_detacherview_base.attachmentList->clear();

    // re-initialize the member we use for referencing the current item
    mItem = Akonadi::Item();

    // create fetch job and let it get the whole message
    Akonadi::ItemFetchJob *fetchJob = new Akonadi::ItemFetchJob( item, this );
    fetchJob->fetchScope().fetchFullPayload();

    connect( fetchJob, SIGNAL( result( KJob* ) ), SLOT( itemFetchDone( KJob* ) ) );
}

void DetacherView::itemFetchDone( KJob *job )
{
    Akonadi::ItemFetchJob *fetchJob = static_cast<Akonadi::ItemFetchJob*>( job );
    if ( job->error() ) {
        kError() << job->errorString();
        return;
    }

    if ( fetchJob->items().isEmpty() ) {
        kWarning() << "Job did not retrieve any items";
        return;
    }

    mItem = fetchJob->items().first();
    if ( !mItem.isValid() ) {
        kWarning() << "Item not valid";
        return;
    }
}

To trigger the item fetching we connect the first new slot to a signal of the MessageView. In DetacherView::createModels() add another connect statement:

connect( ui_detacherview_base.messageView, SIGNAL( currentChanged( Akonadi::Item ) ),
         SLOT( itemChanged( Akonadi::Item ) ) );

Getting the attachments from the message

With the item now fully available, we can proceed to check whether the message has any attachments and if it has display them in the right most widget of our GUI.

MIME messages in KDE are handled by the kmime library.

For the application this means two more includes and a typedef:

#include <kmime/kmime_message.h>
#include <boost/shared_ptr.hpp>
typedef boost::shared_ptr<KMime::Message> MessagePtr;

KMime::Message is the data type and we need the boost::shared_ptr to provide us with the value based behavior required by the item's payload methods.

Equipped with this new tools we can extend DetacherView::itemFetchDone() by adding the following code at its end:

if ( !mItem.hasPayload<MessagePtr>() ) {
    kWarning() << "Item does not have message payload";
    return;
}

const MessagePtr message = mItem.payload<MessagePtr>();
const KMime::Content::List attachments = message->attachments();

foreach ( KMime::Content *attachment, attachments ) {
    const QString fileName = attachment->contentDisposition()->filename();
    if ( fileName.isEmpty() )
        continue;

    ui_detacherview_base.attachmentList->addItem( fileName );
}
Tip
Exercise: Instead of using a QListView and simple strings, a model working on the single item would make the application a lot cleaner.


Detaching an Attachment

This task can again be split into sub tasks:

  • Saving the selected attachment into a file
  • Removing the selected attachment from the message

Saving Attachment into File

First we need a new slot in the private slots section of detacherview.h

void detachAttachment();

To implement the first sub task, saving the selected attachment into a file, the following new includes are needed in detacherview.cpp

#include <kaction.h>
#include <kfiledialog.h>
#include <kstandardaction.h>

In the class' constructor create and connect an action and make it available as the attachment list widget's context menu:

KAction *detachAction = KStandardAction::cut( this, SLOT( detachAttachment() ), this );
detachAction->setText( i18nc( "@action:button remove an attachment from an email",
                              "Detach..." ) );

ui_detacherview_base.attachmentList->addAction( detachAction );
ui_detacherview_base.attachmentList->setContextMenuPolicy( Qt::ActionsContextMenu );
Note
Abusing a KDE standard action like this is not recommendable for real applications. For the scope of this tutorial we overlook this as it provides a quick way to setup an action.


To properly link the additional library for file dialog, change the source directory's CMakeLists.txt to this

target_link_libraries(detacher ${KDE4_KDEUI_LIBS} ${KDEPIMLIBS_AKONADI_LIBS} ${KDEPIMLIBS_AKONADI_KMIME_LIBS} ${KDEPIMLIBS_KMIME_LIBS} ${KDE4_KIO_LIBS})

In case the i18nc function or the text used in it are unexpected, see the Semantic Markup Tutorial.

Saving the attachment means we need to ask for a saving location, probably including a filename override and get the data from the message.

This can be implemented like this

void DetacherView::detachAttachment()
{
    const QList<QListWidgetItem*> items = ui_detacherview_base.attachmentList->selectedItems();

    if ( items.isEmpty() ) {
        kDebug() << "No attachment selected";
        return;
    }

    if ( !mItem.hasPayload<MessagePtr>() ) {
        kWarning() << "Item no longer has a payload";
        return;
    }

    // get the selected list item's text. it is the attachment's filename
    const QString fileName = items.first()->text();

    // ask for a saving location, using the attachment's filename as a
    // suggestion
    KFileDialog dialog( KUrl(), QString(), this );
    dialog.setMode( KFile::Files | KFile::LocalOnly );
    dialog.setOperationMode( KFileDialog::Saving );
    dialog.setConfirmOverwrite( true );
    dialog.setSelection( fileName );

    if ( dialog.exec() != QDialog::Accepted ) {
        kDebug() << "Saving cancelled. Aborting detaching";
        return;
    }

    const QString saveFileName = dialog.selectedFile();
    if ( saveFileName.isEmpty() ) {
        kDebug() << "Empty target file name. Aborting detaching";
        return;
    }

    // find the corresponding attachment data structure
    const MessagePtr message = mItem.payload<MessagePtr>();
    const KMime::Content::List attachments = message->attachments();

    KMime::Content *selectedAttachment = 0;
    foreach ( KMime::Content *attachment, attachments ) {
        if ( fileName == attachment->contentDisposition()->filename() ) {
            selectedAttachment = attachment;
            break;
        }
    }

    if ( selectedAttachment == 0 ) {
        kWarning() << "Selected attachment file name no longer available in message. Aborting detaching";
        return;
    }

    QFile file( saveFileName );
    if ( !file.open( QIODevice::WriteOnly ) ) {
        kError() << "Cannot open target file for writing. Aborting detaching.";
        return;
    }

    file.write( selectedAttachment->decodedContent() );
    file.close();
}
Note
Ideally we would have a direct mapping of file name to attachment pointer, e.g. when using a model working on the Akonadi item.


Removing the Attachment

After successfully saving the attachment we can proceed with removing the attachment from the message data and finally update the item in Akonadi to make it a permanent change.

For the last step another job class is needed: ItemModifyJob

#include <akonadi/itemmodifyjob.h>

and can be implemented by appending the following code to DetacherView::detachAttachment()

// remove attachment from message
message->removeContent( selectedAttachment, true );

// and from the listwidget
delete items.first();

// prepare Akonadi update
Akonadi::Item item( mItem );
item.setPayload<MessagePtr>( message );

Akonadi::ItemModifyJob *modifyJob = new Akonadi::ItemModifyJob( item, this );
if ( !modifyJob->exec() ) {
    kError() << modifyJob->errorString();
    return;
}