Development/Tutorials/Saving and loading/KF5: Difference between revisions
Line 264: | Line 264: | ||
This is identical to <tt>tutorial3ui.rc</tt> from tutorial 3 except the <tt>name</tt> has changed to 'tutorial4'. We do not need to add any information about any of the <tt>KStandardAction</tt>s since the placement of those actions is handled automatically by KDE. | This is identical to <tt>tutorial3ui.rc</tt> from tutorial 3 except the <tt>name</tt> has changed to 'tutorial4'. We do not need to add any information about any of the <tt>KStandardAction</tt>s since the placement of those actions is handled automatically by KDE. | ||
== Explanation== | ==Explanation== | ||
Okay, now to implement the code that will do the loading and saving. This will all be happening in <tt>mainwindow.cpp</tt> | |||
The first thing we do is add <tt>fileName(QString())</tt> to the <tt>MainWindow</tt> constructor list on line 17. This makes sure that <tt>fileName</tt> is empty right from the beginning. | |||
===Adding the actions=== | |||
The first thing we are going to do is provide the outward interface for the user so they can tell the application to load and save. Like with the <tt>quit</tt> action in tutorial 3, we will use <tt>KStandardActions</tt>. On lines 37 to 47 we add the actions in the same way as for the <tt>quit</tt> action. For each one, we connect it to the appropriate slot that we declared in the header file. | |||
===Creating a new document=== | |||
The first function we create is the <tt>newFile()</tt> function. | |||
<syntaxhighlight lang="cpp-qt"> | |||
void MainWindow::newFile() | |||
{ | |||
fileName.clear(); | |||
textArea->clear(); | |||
} | |||
</syntaxhighlight> | |||
<tt>fileName.clear()</tt> sets the <tt>fileName</tt> QString to be empty to reflect the fact that this document does not yet have a presence on disc. <tt>textArea->clear()</tt> then clears the central text area using the same function that we connected the <tt>clear</tt> <tt>KQction</tt> to in tutorial 3. | |||
===Saving a file=== | |||
'''NOTE:''' To make this tutorial simple, this example program can only save to local storage even though it can open any file, even those from remote sources. | |||
====saveFileAs(QString)==== | |||
Now we get onto our first file handling code. We're going to implement a function which will save the contents of the text area to the file name given as a parameter. Qt provides a class for safely saving a file called [http://doc.qt.io/qt-5/qsavefile.html QSaveFile]. | |||
The function's prototype is | |||
<syntaxhighlight lang="cpp-qt"> | |||
void MainWindow::saveFileAs(const QString &outputFileName) | |||
</syntaxhighlight> | |||
We then create our <tt>QSaveFile</tt> object and open it with | |||
<syntaxhighlight lang="cpp-qt"> | |||
QSaveFile file(outputFileName); | |||
file.open(QIODevice::WriteOnly); | |||
</syntaxhighlight> | |||
Now that we have our file to write to, we need to format the text in the text area to a format which can be written to file. For this, we create a [http://doc.qt.io/qt-5/qbytearray.html QByteArray] and fill it with the plain text version of whatever is in the text area: | |||
<syntaxhighlight lang="cpp-qt"> | |||
QByteArray outputByteArray; | |||
outputByteArray.append(textArea->toPlainText().toUtf8()); | |||
</syntaxhighlight> | |||
Now that we have our <tt>QByteArray</tt>, we use it to write to the file with <tt>QSaveFile::write()</tt>. If we were using a normal <tt>QFile</tt>, this would make the changes immediately. However, if a problem occurred partway through writing, the file would become corrupted. For this reason, <tt>QSaveFile</tt> works by first writing to a temporary file and then, when you call <tt>QSaveFile::commit()</tt> the changes are made to the actual file. <tt>commit()</tt> also closes the file. | |||
<syntaxhighlight lang="cpp-qt"> | |||
file.write(outputByteArray); | |||
file.commit(); | |||
</syntaxhighlight> | |||
Finally, we set <tt>MainWindows</tt>'s <tt>fileName</tt> member to point to the file name we just saved to. | |||
<syntaxhighlight lang="cpp-qt"> | |||
fileName = outputFileName; | |||
</syntaxhighlight> | |||
====saveFileAs()==== | |||
This is the function that the <tt>saveAs</tt> slot is connected to. It simply calls the generic <tt>saveFileAs(QString)</tt> function and passes the file name returned by <tt>[http://doc.qt.io/qt-5/qfiledialog.html QFileDialog]::[http://doc.qt.io/qt-5/qfiledialog.html#getSaveFileName getSaveFileName()]</tt>. | |||
<syntaxhighlight lang="cpp-qt"> | |||
void MainWindow::saveFileAs() | |||
{ | |||
saveFileAs(QFileDialog::getSaveFileName(this, i18n("Save File As"))); | |||
} | |||
</syntaxhighlight> | |||
[http://doc.qt.io/qt-5/qfiledialog.html QFileDialog] provides a number of static functions for displaying the common file dialog that is used by all KDE applications. Calling <tt>QFileDialog::getSaveFileName()</tt> will display a dialog where the user can select the name of the file to save to or choose a new name. The function returns the full file name, which we then pass to <tt>saveFileAs(QString)</tt>. | |||
====saveFile()==== | |||
<syntaxhighlight lang="cpp-qt"> | |||
void MainWindow::saveFile() | |||
{ | |||
if(!fileName.isEmpty()) | |||
{ | |||
saveFileAs(fileName); | |||
} | |||
else | |||
{ | |||
saveFileAs(); | |||
} | |||
} | |||
</syntaxhighlight> | |||
There's nothing exciting or new in this function, just the logic to decide whether or not to show the save dialog. If <tt>fileName</tt> is not empty, then the file is saved to <tt>fileName</tt>. But if it is, then the dialog is shown to allow the user to select a file name. | |||
===Loading a file=== | |||
Finally, we get round to being able to load a file, from disc or from a remote location like an FTP server. The code for this is all contained in <tt>MainWindow::openFile()</tt>. | |||
First we must ask the user for the name of the file they wish to open. We do this using another one of the <tt>QFileDialog</tt> functions, this time <tt>getOpenFileName()</tt>: | |||
<syntaxhighlight lang="cpp-qt"> | |||
QUrl fileNameFromDialog = QFileDialog::getOpenFileUrl(this, i18n("Open File")); | |||
</syntaxhighlight> | |||
Here we use the QUrl class to handle files from remote locations. | |||
Then we use the KIO library to retrieve our file. This allows us to open the file normally even if it's stored in a remote location like an FTP site. We make the following call to the <tt>[http://api.kde.org/frameworks-api/frameworks5-apidocs/kio/html/namespaceKIO.html#a17631774b47cddb0127d8a3c1fc2315c KIO::storedGet()]</tt> function with an argument for the file you wish to open or download: | |||
<syntaxhighlight lang="cpp-qt"> | |||
KIO::Job* job = KIO::storedGet(fileNameFromDialog); | |||
</syntaxhighlight> | |||
The function returns a handle to a <tt>KIO::Job</tt>, which we first connect to our <tt>downloadFinished()</tt> slot before "running" the job. | |||
<syntaxhighlight lang="cpp-qt"> | |||
connect(job, SIGNAL(result(KJob*)), this, SLOT(downloadFinished(KJob*))); | |||
job->exec(); | |||
</syntaxhighlight> | |||
The rest of the work happens in the <tt>downloadFinished()</tt> slot. First, the job is checked for errors. If it failed, we display a message box giving the error. We also make sure to clear the fileName, since the file wasn't opened successfully: | |||
<syntaxhighlight lang="cpp-qt"> | |||
KMessageBox::error(this, job->errorString()); | |||
fileName.clear(); | |||
</syntaxhighlight> | |||
Otherwise, we continue with opening the file. | |||
The data that <tt>storedGet()</tt> successfully downloaded, in this case the contents of our text file, is stored in the <tt>data</tt> member of a <tt>[http://api.kde.org/frameworks-api/frameworks5-apidocs/kio/html/classKIO_1_1StoredTransferJob.html KIO::StoredTransferJob]</tt> class. But in order to display the contents of the file at text, we must use a [http://doc.qt.io/qt-5/qtextstream.html QTextStream]. We create one by passing the the data of the <tt>StoredTransferJob</tt> to its constructor and then call its <tt>readAll()</tt> function to get the text from the file. This is then passed to the <tt>setPlainText()</tt> function of our text area. | |||
<syntaxhighlight lang="cpp-qt"> | |||
KIO::StoredTransferJob* storedJob = (KIO::StoredTransferJob*)job; | |||
textArea->setPlainText(QTextStream(storedJob->data(), QIODevice::ReadOnly).readAll()); | |||
</syntaxhighlight> | |||
'''NOTE:''' Again, for simplicity's sake, this tutorial only saves text files to local disk. When you open a remote file for viewing and try to save it, the program will behave as if you were calling Save As on a completely new file. | |||
==Make, Install, and Run== | ==Make, Install, and Run== |
Revision as of 07:13, 16 January 2016
Tutorial Series | Beginner Tutorial |
Previous | Tutorial 3 - KActions |
What's Next | Tutorial 5 - Using KCmdLineArgs |
Further Reading | Tutorial: Using KIO Slaves in your Program KIO::NetAccess QFile |
Abstract
Now that we have a basic text editor interface, it's time to make it do something useful. At the most basic, a text editor needs to be able to load files from disc, save files that you've created/edited and create new files.
The KDE Frameworks provides a number of classes for working with files which make life a lot easier for developers. The KIO framework allows you to easily access files through network-transparent protocols. At the same time, Qt also provides standard file dialogs for opening and saving files.
The Code
main.cpp
#include <cstdlib>
#include <QApplication>
#include <QCommandLineParser>
#include <KAboutData>
#include <KLocalizedString>
#include "mainwindow.h"
int main (int argc, char *argv[])
{
QApplication app(argc, argv);
KLocalizedString::setApplicationDomain("tutorial4");
KAboutData aboutData(
// The program name used internally. (componentName)
QStringLiteral("tutorial4"),
// A displayable program name string. (displayName)
i18n("Tutorial 4"),
// The program version string. (version)
QStringLiteral("1.0"),
// Short description of what the app does. (shortDescription)
i18n("A simple text area which can load and save."),
// The license this code is released under
KAboutLicense::GPL,
// Copyright Statement (copyrightStatement = QString())
i18n("(c) 2015"),
// Optional text shown in the About box.
// Can contain any information desired. (otherText)
i18n("Some text..."),
// The program homepage string. (homePageAddress = QString())
QStringLiteral("http://example.com/"),
// The bug report email address
// (bugsEmailAddress = QLatin1String("[email protected]")
QStringLiteral("[email protected]"));
aboutData.addAuthor(i18n("Name"), i18n("Task"), QStringLiteral("[email protected]"),
QStringLiteral("http://your.website.com"), QStringLiteral("OSC Username"));
KAboutData::setApplicationData(aboutData);
QCommandLineParser parser;
parser.addHelpOption();
parser.addVersionOption();
aboutData.setupCommandLine(&parser);
parser.process(app);
aboutData.processCommandLine(&parser);
MainWindow* window = new MainWindow();
window->show();
return app.exec();
}
main.cpp hasn't changed from tutorial 3 except to change any reference from tutorial 3 to tutorial 4.
mainwindow.h
#ifndef MAINWINDOW_H
#define MAINWINDOW_H
#include <KXmlGuiWindow>
class KTextEdit;
class KJob;
class MainWindow : public KXmlGuiWindow
{
Q_OBJECT
public:
MainWindow(QWidget *parent=0);
private:
KTextEdit* textArea;
void setupActions();
QString fileName;
private slots:
void newFile();
void openFile();
void saveFile();
void saveFileAs();
void saveFileAs(const QString &outputFileName);
void downloadFinished(KJob* job);
};
#endif
Since we want to add the ability to load and save files, we must add the functions which will do the work. Since the functions will be called through Qt's signal/slot mechanism we must specify that these functions are slots as we do on line 19. Since we are using slots in this header file, we must also add the Q_OBJECT macro.
We also want to keep track of the filename of the currently opened file so we declare a QString fileName.
mainwindow.cpp
#include <QApplication>
#include <QAction>
#include <QSaveFile>
#include <QFileDialog>
#include <QTextStream>
#include <QByteArray>
#include <KTextEdit>
#include <KLocalizedString>
#include <KActionCollection>
#include <KStandardAction>
#include <KMessageBox>
#include <KIO/Job>
#include "mainwindow.h"
MainWindow::MainWindow(QWidget *parent) : KXmlGuiWindow(parent), fileName(QString())
{
textArea = new KTextEdit();
setCentralWidget(textArea);
setupActions();
}
void MainWindow::setupActions()
{
QAction* clearAction = new QAction(this);
clearAction->setText(i18n("&Clear"));
clearAction->setIcon(QIcon::fromTheme("document-new"));
actionCollection()->setDefaultShortcut(clearAction, Qt::CTRL + Qt::Key_W);
actionCollection()->addAction("clear", clearAction);
connect(clearAction, SIGNAL(triggered(bool)), textArea, SLOT(clear()));
KStandardAction::quit(qApp, SLOT(quit()), actionCollection());
KStandardAction::open(this, SLOT(openFile()), actionCollection());
KStandardAction::save(this, SLOT(saveFile()), actionCollection());
KStandardAction::saveAs(this, SLOT(saveFileAs()), actionCollection());
KStandardAction::openNew(this, SLOT(newFile()), actionCollection());
setupGUI(Default, "tutorial4ui.rc");
}
void MainWindow::newFile()
{
fileName.clear();
textArea->clear();
}
void MainWindow::saveFileAs(const QString &outputFileName)
{
if (!outputFileName.isNull())
{
QSaveFile file(outputFileName);
file.open(QIODevice::WriteOnly);
QByteArray outputByteArray;
outputByteArray.append(textArea->toPlainText().toUtf8());
file.write(outputByteArray);
file.commit();
fileName = outputFileName;
}
}
void MainWindow::saveFileAs()
{
saveFileAs(QFileDialog::getSaveFileName(this, i18n("Save File As")));
}
void MainWindow::saveFile()
{
if (!fileName.isEmpty())
{
saveFileAs(fileName);
}
else
{
saveFileAs();
}
}
void MainWindow::openFile()
{
QUrl fileNameFromDialog = QFileDialog::getOpenFileUrl(this, i18n("Open File"));
if (!fileNameFromDialog.isEmpty())
{
KIO::Job* job = KIO::storedGet(fileNameFromDialog);
fileName = fileNameFromDialog.toLocalFile();
connect(job, SIGNAL(result(KJob*)), this, SLOT(downloadFinished(KJob*)));
job->exec();
}
}
void MainWindow::downloadFinished(KJob* job)
{
if (job->error())
{
KMessageBox::error(this, job->errorString());
fileName.clear();
return;
}
KIO::StoredTransferJob* storedJob = (KIO::StoredTransferJob*)job;
textArea->setPlainText(QTextStream(storedJob->data(), QIODevice::ReadOnly).readAll());
}
We'll get into the details of mainwindow.cpp in a while.
tutorial4ui.rc
<?xml version="1.0" encoding="UTF-8"?>
<gui name="tutorial4"
version="1"
xmlns="http://www.kde.org/standards/kxmlgui/1.0"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://www.kde.org/standards/kxmlgui/1.0
http://www.kde.org/standards/kxmlgui/1.0/kxmlgui.xsd" >
<MenuBar>
<Menu name="file" >
<Action name="clear" />
</Menu>
</MenuBar>
<ToolBar name="mainToolBar" >
<text>Main Toolbar</text>
<Action name="clear" />
</ToolBar>
</gui>
This is identical to tutorial3ui.rc from tutorial 3 except the name has changed to 'tutorial4'. We do not need to add any information about any of the KStandardActions since the placement of those actions is handled automatically by KDE.
Explanation
Okay, now to implement the code that will do the loading and saving. This will all be happening in mainwindow.cpp
The first thing we do is add fileName(QString()) to the MainWindow constructor list on line 17. This makes sure that fileName is empty right from the beginning.
Adding the actions
The first thing we are going to do is provide the outward interface for the user so they can tell the application to load and save. Like with the quit action in tutorial 3, we will use KStandardActions. On lines 37 to 47 we add the actions in the same way as for the quit action. For each one, we connect it to the appropriate slot that we declared in the header file.
Creating a new document
The first function we create is the newFile() function.
void MainWindow::newFile()
{
fileName.clear();
textArea->clear();
}
fileName.clear() sets the fileName QString to be empty to reflect the fact that this document does not yet have a presence on disc. textArea->clear() then clears the central text area using the same function that we connected the clear KQction to in tutorial 3.
Saving a file
NOTE: To make this tutorial simple, this example program can only save to local storage even though it can open any file, even those from remote sources.
saveFileAs(QString)
Now we get onto our first file handling code. We're going to implement a function which will save the contents of the text area to the file name given as a parameter. Qt provides a class for safely saving a file called QSaveFile.
The function's prototype is
void MainWindow::saveFileAs(const QString &outputFileName)
We then create our QSaveFile object and open it with
QSaveFile file(outputFileName);
file.open(QIODevice::WriteOnly);
Now that we have our file to write to, we need to format the text in the text area to a format which can be written to file. For this, we create a QByteArray and fill it with the plain text version of whatever is in the text area:
QByteArray outputByteArray;
outputByteArray.append(textArea->toPlainText().toUtf8());
Now that we have our QByteArray, we use it to write to the file with QSaveFile::write(). If we were using a normal QFile, this would make the changes immediately. However, if a problem occurred partway through writing, the file would become corrupted. For this reason, QSaveFile works by first writing to a temporary file and then, when you call QSaveFile::commit() the changes are made to the actual file. commit() also closes the file.
file.write(outputByteArray);
file.commit();
Finally, we set MainWindows's fileName member to point to the file name we just saved to.
fileName = outputFileName;
saveFileAs()
This is the function that the saveAs slot is connected to. It simply calls the generic saveFileAs(QString) function and passes the file name returned by QFileDialog::getSaveFileName().
void MainWindow::saveFileAs()
{
saveFileAs(QFileDialog::getSaveFileName(this, i18n("Save File As")));
}
QFileDialog provides a number of static functions for displaying the common file dialog that is used by all KDE applications. Calling QFileDialog::getSaveFileName() will display a dialog where the user can select the name of the file to save to or choose a new name. The function returns the full file name, which we then pass to saveFileAs(QString).
saveFile()
void MainWindow::saveFile()
{
if(!fileName.isEmpty())
{
saveFileAs(fileName);
}
else
{
saveFileAs();
}
}
There's nothing exciting or new in this function, just the logic to decide whether or not to show the save dialog. If fileName is not empty, then the file is saved to fileName. But if it is, then the dialog is shown to allow the user to select a file name.
Loading a file
Finally, we get round to being able to load a file, from disc or from a remote location like an FTP server. The code for this is all contained in MainWindow::openFile().
First we must ask the user for the name of the file they wish to open. We do this using another one of the QFileDialog functions, this time getOpenFileName():
QUrl fileNameFromDialog = QFileDialog::getOpenFileUrl(this, i18n("Open File"));
Here we use the QUrl class to handle files from remote locations.
Then we use the KIO library to retrieve our file. This allows us to open the file normally even if it's stored in a remote location like an FTP site. We make the following call to the KIO::storedGet() function with an argument for the file you wish to open or download:
KIO::Job* job = KIO::storedGet(fileNameFromDialog);
The function returns a handle to a KIO::Job, which we first connect to our downloadFinished() slot before "running" the job.
connect(job, SIGNAL(result(KJob*)), this, SLOT(downloadFinished(KJob*)));
job->exec();
The rest of the work happens in the downloadFinished() slot. First, the job is checked for errors. If it failed, we display a message box giving the error. We also make sure to clear the fileName, since the file wasn't opened successfully:
KMessageBox::error(this, job->errorString());
fileName.clear();
Otherwise, we continue with opening the file.
The data that storedGet() successfully downloaded, in this case the contents of our text file, is stored in the data member of a KIO::StoredTransferJob class. But in order to display the contents of the file at text, we must use a QTextStream. We create one by passing the the data of the StoredTransferJob to its constructor and then call its readAll() function to get the text from the file. This is then passed to the setPlainText() function of our text area.
KIO::StoredTransferJob* storedJob = (KIO::StoredTransferJob*)job;
textArea->setPlainText(QTextStream(storedJob->data(), QIODevice::ReadOnly).readAll());
NOTE: Again, for simplicity's sake, this tutorial only saves text files to local disk. When you open a remote file for viewing and try to save it, the program will behave as if you were calling Save As on a completely new file.
Make, Install, and Run
CMakeLists.txt
project (tutorial4)
cmake_minimum_required(VERSION 2.8.12 FATAL_ERROR)
set(QT_MIN_VERSION "5.3.0")
set(KF5_MIN_VERSION "5.2.0")
find_package(ECM 1.0.0 REQUIRED NO_MODULE)
set(CMAKE_MODULE_PATH ${ECM_MODULE_PATH} ${ECM_KDE_MODULE_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/cmake)
include(KDEInstallDirs)
include(KDECMakeSettings)
include(KDECompilerSettings)
include(FeatureSummary)
# Find Qt modules
find_package(Qt5 ${QT_MIN_VERSION} CONFIG REQUIRED COMPONENTS
Core # QCommandLineParser, QStringLiteral, QSaveFile, QTextStream, QByteArray
Widgets # QApplication, QAction, QFileDialog
)
# Find KDE modules
find_package(KF5 ${KF5_MIN_VERSION} REQUIRED COMPONENTS
CoreAddons # KAboutData
I18n # KLocalizedString
XmlGui # KXmlGuiWindow, KActionCollection
TextWidgets # KTextEdit
ConfigWidgets # KStandardActions
WidgetsAddons # KMessageBox
KIO # KIO
)
feature_summary(WHAT ALL INCLUDE_QUIET_PACKAGES FATAL_ON_MISSING_REQUIRED_PACKAGES)
set(tutorial4_SRCS main.cpp mainwindow.cpp)
# just plain add_executable
add_executable(tutorial4 ${tutorial4_SRCS})
# module-based linking
target_link_libraries(tutorial4
Qt5::Widgets
KF5::CoreAddons
KF5::I18n
KF5::XmlGui
KF5::TextWidgets
KF5::ConfigWidgets
KF5::WidgetsAddons
KF5::KIOCore
)
install(TARGETS tutorial4 ${INSTALL_TARGETS_DEFAULT_ARGS})
install(FILES tutorial4ui.rc DESTINATION ${KXMLGUI_INSTALL_DIR}/tutorial4)