New Features in Qt 6.0: Difference between revisions

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===Windows===
===Windows===
=== Android ===
* Renamed Java package name from org.qtproject.qt5.android to org.qtproject.qt.android. The version number will be in the name of the *.jar files instead ([http://bugreports.qt.io/browse/QTBUG-86969 QTBUG-86969]).
* Use Gradle daemon for Android app builds ([http://bugreports.qt.io/browse/QTBUG-86674 QTBUG-86674]).
* Set default javac source and target build versions to 8 and allow setting that from configure script ([http://bugreports.qt.io/browse/QTBUG-86282 QTBUG-86282]).
* Minimum Android API level is 23 for Qt 6.
* Implement MaximizeUsingFullscreenGeometryHint to allow Android apps to go into immersive mode ([http://bugreports.qt.io/browse/QTBUG-74202 QTBUG-74202]).
* Fixes to androidtestrunner and running QML tests.


==Removed Modules==
==Removed Modules==

Revision as of 08:12, 10 November 2020

The product mission of Qt 6 is to enable Qt to be the productivity platform for the future. Qt 6.0, as a major release of Qt, provides a higher degree of freedom to implement new features, functionality, and better support today and tomorrow's requirements. Qt 6.0 is a continuation of the Qt 5 series and should not be disruptive for users to migrate on.

When creating Qt 6, we have especially wanted to ensure that the core values that Qt has for our customers and users are adhered to:

  • Its cross-platform nature, allowing users to deploy their applications to all desktop, mobile, and embedded platforms using one technology and from a single code base
  • Its scalability from low-end, single-purpose devices to high-end complex desktop applications or connected system
  • World-class APIs and tools and documentation, simplifying the creation of applications and devices
  • Maintainability, stability, and compatibility, allowing to maintain large code bases with minimal effort
  • A large developer ecosystem with more than 1.5 million users

Qt 6.0 is the first release of the Qt 6 series addressing new market demands while keeping the core values at the heart of what we're doing.

Porting guide

When creating Qt 6, we aim to retain as much compatibility with Qt 5 as possible, but some changes were inevitable to make Qt a better framework. To make it easier to port to Qt 6.0, we have created a Porting guide to summarize those changes and provide guidance to handle them. In the guide, you can find links to articles about changes that may affect your application and help you transitioning from Qt 5 to Qt 6.

Overview of the changes

Key changes in Qt 6.0 include:

  • Leveraging C++17
  • Next generation QML
  • New graphics architecture
  • Unified 2D and 3D for Qt Quick
  • CMake build system (with qmake still supported for applications)
  • Multiple improvements throughout

With Qt 6.0 focus is in the most commonly used modules, so many of the add-ons are not yet available with Qt 6.0.

New Features (within existing modules)

There have been lots of clean-up rounds, and we have removed many deprecated methods. The Qt 6 documentation snapshot pages, automatically generated by QDoc based on the code, include Obsolete Classes and New Classes and Functions lists.

Qt Core

  • QByteArrayView now provides a light-weight way to view the content of a QByteArray or other char-equivalent array data
  • QPromise allows setting values, progress and exceptions to QFuture
  • QFuture supports attaching continuations
  • Signals can now be converted to QFuture objects
  • QVector and QList are unified. QList is updated and should be used by default when array-like behaviour is needed
  • QList, QString and QByteArray now have optimized complexity of insertion at the beginning (a.k.a. prepend)
  • Q_DECLARE_TYPEINFO() mechanism simplified:
    • Trivially copyable and trivially destructible types are automatically treated as relocatable (Q_RELOCATABLE_TYPE)
    • Q_MOVABLE_TYPE and Q_RELOCATABLE_TYPE mean the same thing
  • Container classes now use qsizetype as an underlying type for size and indexing. Additionally, several related classes got updated in a similar fashion (e.g. QTextBoundaryFinder and QRegularExpression). This change allows containers to hold more than 2^31 items on 64 bit platforms
  • QLocale improvements, principally around number formatting (plus lots of clean-up).
    • A few QChar-returning methods now return QString to cope with locales where the relevant "single character" is represented by a code-point outside Unicode's BMP (Basic Multilingual Plane); that is, they use surrogate pairs in UTF-16, hence two code-units in the encoding Qt uses, rather than only one.
    • That enables support for number formatting and parsing in locales whose numerals are not in the BMP, making it possible now to include such locales, where CLDR has data for them.
    • Corrections to grouping of digits (a.k.a. placement of "thousands separators", except that …) so that locales which group other than in threes are properly covered, and a leading separator is omitted if there are too few digits before it, as required by some locales (e.g. Spanish).
    • Use of accountancy formats for currency quantities, where available, improving support for locale-specific representation of negative currency quantities.

Qt Gui

  • QPageRanges is a new class that helps with managing a collection of page ranges, i.e. when printing

Input event improvements

In the past, mouse, tablet and touch events were quite different, because only touchscreens are multi-touch, and therefore only QTouchEvent could carry multiple touchpoints; while tablet devices have other capabilities. Now we have refactored the pointing-device events to have common API in addition, so that it's possible to write device-agnostic event handling code. This provides the foundation to make event handling more uniform in Qt Quick.

  • QPointerEvent is the new class that provides common API for input events from pointer-based input devices, such as mice, tablets, or touch screens.
  • QSinglePointEvent is a new subclass that provides a common set of accessors for input events from single-point devices: that is, all devices except touchscreens. QMouseEvent is now a trivial subclass of QSinglePointEvent.
  • QEventPoint stores information about an individual event point. QTouchEvent carries multiple instances; QSinglePointEvent carries a single instance.
  • The QInputDevice class represents the device from which each input event originates, with QPointerDevice specialising for pointer-based input devices. QInputEvent has a device() accessor. So for example when a mouse event is synthesized from a touch or tablet event, you can see that it came from a specific device rather than from one "core" mouse. In the future we intend to develop support for using multiple input devices simultaneously: then it will be even more important to distinguish input from different devices.

Qt Quick

  • The Qt Quick scenegraph is now functional on Vulkan, Metal, and Direct3D 11, in addition to OpenGL and OpenGL ES.
    • APIs with direct OpenGL dependencies are replaced by new alternatives, that are functional with all the supported graphics APIs. This affects mainly a number of member functions in QQuickWindow, QSGTexture, and QSGMaterialShader.
    • The Qt Quick scenegraph material system has changed to accomodate graphics APIs other than OpenGL. QSGMaterialShader has a whole new interface to be implemented by subclasses.
    • QQuickRenderControl has an enhanced API and is complemented by the new helper classes QQuickRenderTarget, QQuickGraphicsDevice, and QQuickGraphicsConfiguration, which provide better control over QQuickWindow and the underlying graphics stack.
  • QQuickWindow has a number of new signals, such as beforeRenderPassRecording() or beforeFrameBegin(). These complement the existing signals, such as beforeRendering(), and enable applications to perform their own Vulkan, Metal, D3D, or OpenGL rendering before or after the Qt Quick scenegraph renders its scene.
  • Vertex and fragment shaders in ShaderEffect and QSGMaterialShader are handled via the new unified shader pipeline, allowing shaders to be written once, while being functional with any of the supported graphics APIs at run time. Applications should now use the tools from the Qt Shader Tools module to prepare (compile, reflect, and translate) their shader code offline or at build time.
  • The Qt Quick scenegraph renderer is now able to function in a mode that is compatible with perspective projections as well, which enables rendering combined 2D-3D scenes in one render pass.

Qt Quick 3D

  • Ported to the new common graphics abstractions in Qt 6.0.
    • In Qt 6.0 everything that applies to Qt Quick in this regard (for example, configuring which graphics API to use) applies to Qt Quick 3D as well. The 3D scene renderer plugs in to Qt Quick, using the same rendering infrastructure, unlike Qt 5.15, where rendering happened in separate worlds by going directly to OpenGL.
  • More unified 2D-3D scenes.
    • A 3D scene can contain arbitrary Item (QQuickItem) subtrees, which are then rendered directly by the Qt Quick scenegraph's renderer, using the appropriate transformations and projections, without having to do a separate render pass into some offscreen render target.
  • Improved rendering fidelity
    • Improved PrincipledMaterial: assets with the metallic-roughness workflow now look closer to what the designer intended.
    • Enhanced color handling (linear vs. sRGB), with proper tonemapping.
  • The custom material system has been completely redesigned. The CustomMaterial API and the way the associated shader snippets are written have major changes in Qt 6.0. See also the getting started page.
  • Post-processing effects have been migrated to a shader handling approach that follows the same patterns as CustomMaterial, making writing custom effects simpler.
  • Texture parameters (filtering, mipmaps) are now configurable via the QML API.
  • Added a C++ API for procedurally generating image data for textures.
  • Updated the custom geometry C++ API.
  • The documentation has been heavily updated. Also added architecture documentation and getting started guides.

Qt Quick Controls

  • Added macOS and Windows native desktop styles.
  • A style appropriate for the target platform is now selected if none is specified. To support this, the Default style was renamed to Basic.
  • Compile time style selection is now supported by explicitly importing a style.
  • Added implicitContentWidthPolicy to ComboBox, which controls how its implicitContentWidth is calculated. This can be used to automatically ensure that text is not elided.

New Modules

Qt5Compat
Compatibility library providing access to legacy APIs removed in Qt 6.
QtShaderTools
Tools and APIs for preparing graphics and compute shaders to be consumed by the new graphics stack

Platform Changes

All

  • Qt is now built with CMake.
  • Qt High DPI scaling is now activated by default; the default rounding policy is PassThrough
  • Platform specific APIs are now available though the new native interfaces API

Linux

macOS

Windows

Android

  • Renamed Java package name from org.qtproject.qt5.android to org.qtproject.qt.android. The version number will be in the name of the *.jar files instead (QTBUG-86969).
  • Use Gradle daemon for Android app builds (QTBUG-86674).
  • Set default javac source and target build versions to 8 and allow setting that from configure script (QTBUG-86282).
  • Minimum Android API level is 23 for Qt 6.
  • Implement MaximizeUsingFullscreenGeometryHint to allow Android apps to go into immersive mode (QTBUG-74202).
  • Fixes to androidtestrunner and running QML tests.

Removed Modules

The following modules are removed and not planned to be developed further. Other modules that are not part of Qt 6.0 are considered for candidates to support with later Qt 6.x releases or as additional libraries on top of the baseline Qt release.

  • Qt Multimedia Widgets
  • Qt Graphical Effects
  • Qt Purchasing
  • Qt Quick Extras
  • Qt Quick WebGL
  • Qt Script
  • Qt XML Patterns
  • Qt Platform Headers

See Checklist for Qt 6.0 inclusion for the selection process.

Code from these Qt <platform> Extras modules will find new homes in more relevant modules over time, and any remaining APIs considered for inclusion in later 6.x releases:

  • Qt Android Extras
  • Qt Mac Extras
  • Qt X11 Extras
  • Qt Windows Extras

Additional Modules Available via Package Manager

The following additional modules are available via the package manager functionality in the Qt online installer:

  • Qt Image Formats
  • Qt 3D
  • Qt Network Authorization

The package manager provides these additional modules as source packages, which need to be built locally by the user.