MinGW-64-bit

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I suggest to merge the (important) content from here with the article on MinGW. Please feel free to help out.

This is about MinGW and Qt 5.

Executive Summary

We recommend a MinGW-w64 based distribution with a recent gcc. Starting with Qt 5.0.1 there are also binary installers that ship a Mingw-w64 based toolchain + pre-built Qt libraries.

Recommended package for 32 bit (also tested in CI system + used by installer for 5.1):
http://sourceforge.net/projects/mingwbuilds/files/host-windows/releases/4.8.0/32-bit/threads-posix/dwarf/x32-4.8.0-release-posix-dwarf-rev2.7z/download

Recommended package for 64 bit:
http://sourceforge.net/projects/mingwbuilds/files/host-windows/releases/4.8.0/64-bit/threads-posix/seh/x64-4.8.0-release-posix-seh-rev2.7z/download

Community member George Edison has cross-compiled Qt 5.0.1 for Windows using the Mingw-w64 compilers and is hosting the archives here:
http://files.quickmediasolutions.com/qt5/

Background

The MinGW from http://www.mingw.org/ does only support gcc 32 bit (host and target). The independent minGW-w64 project provides support for 64 bit, and also supports a much larger part of the Windows API. The MinGW-w64 project however does not provide official binary builds: These can be grabbed either from the personal build directories of the developers (the most popular being rubenvb), or from associated but independent projects like tdm-gcc or mingw-builds.

RubenVB personal builds

“RubenVB personal builds”: For 32-bit Windows target [sourceforge.net] targetting Win32/Personal Builds/rubenvb/ and for 64-bit Windows target [sourceforge.net] targetting Win64/Personal Builds/rubenvb/ :
Features different packages with cygwin, win32, win64, linux as host. Target is either win32 or win64. Packages are built with every GCC release, experimental and prerelease packages are built on request.

MinGW-builds

“MinGW-builds”: http://sourceforge.net/projects/mingwbuilds/ : a binary package by developer niXman . Provides both packages with a 32-bit and a 64-bit compiler (Windows host), that can also cross-compile to 32-bit or 64-bit. Packages are available with both “posix” and “win32” threading libraries, for 32 bit also with sjlj or dwarf exception variants.

Exception handling: SJLJ, DWARF, and SEH

Some packages like MinGW-builds and TDM-GCC let you choose which exception implementation you want to use. You must ensure you use the same compiler used to build the Qt you use in order to avoid linker errors. If you choose to change the exception handling mechanism, you will need to rebuild all code, mostly because the libgcc shared library name is different between the exception handling settings.

SJLJ (setjmp/longjmp):

  • available for 32 bit and 64 bit
  • not “zero-cost”: even if an exception isn’t thrown, it incurs a minor performance penalty (~15% in exception heavy code) but sometimes the penalty can be more significant: https://bugreports.qt.io/browse/QTBUG-29653
  • allows exceptions to traverse through e.g. windows callbacks

DWARF (DW2, dwarf-2)

  • available for 32 bit only
  • no permanent runtime overhead
  • needs whole call stack to be dwarf-enabled, which means exceptions cannot be thrown over e.g. Windows system DLLs.

SEH (zero overhead exception)

  • will be available for 64-bit GCC 4.8.
  • rubenvb release is available [sourceforge.net] targetting Win64/Personal Builds/rubenvb/gcc-4.8-release/x86_64-w64-mingw32-gcc-4.8.0-win64_rubenvb.7z/download
  • MinGW-builds release is available [sourceforge.net]

From TDM-GCC readme:

GCC currently supports two methods of stack frame unwinding: Dwarf-2 (DW2) or
SJLJ (setjmp/longjmp). Until recently, only SJLJ has been available for the
Windows platform. This affects you, the end user, primarily in programs that
throw and catch exceptions. Programs which utilize the DW2 unwind method
generally execute more quickly than programs which utilize the SJLJ method,
because the DW2 method incurs no runtime overhead until an exception is thrown.
However, the DW2 method does incur a size penalty on code that must handle
exceptions, and more importantly the DW2 method cannot yet unwind (pass
exceptions) through “foreign” stack frames: stack frames compiled by another
non-DW2-enabled compiler, such as OS DLLs in a Windows callback.

This means that you should in general choose the SJLJ version of the TDM-GCC
builds unless you know you need faster exception-aware programs and can be
certain you will never throw an exception through a foreign stack area.

As distributed, the SJLJ and DW2 packages of TDM-GCC can coexist peacefully
extracted to the same directory (i.e. any files in common are for all intents
and purposes identical), because the driver executables (the ones in the “bin”
directory) are suffixed with “-dw2” for the DW2 build, and the libraries and
other executables hide in another “-dw2” directory in “lib(exec)/gcc/mingw32”.
This allows you to use the same single addition to your PATH, and use DW2
exceptions only when you need them by calling “gcc-dw2”, etc. If you truly want
DW2 exceptions as the default when calling “gcc” (from Makefiles or configury
systems, for example), you can rename or copy the suffixed executables to their
original names.”

DW2 Issues

  • If a library that uses DW2 exception handling (e.g. libgcc_s_dw2-1.dll) is loaded using LoadLibrary and FreeLibrary is not called, the program will crash. See http://comments.gmane.org/gmane.comp.gnu.mingw.user/41724
  • Calling FreeLibrary to unload a dll that links to both dynamic libgcc_s_dw2 and a library that links to static libgcc_s_dw2 results in a crash

GCC Threading model (posix vs win32)

Mingw-Builds (and the experimental rubenvb packages) also let you choose between the threading model internally used by (lib)gcc:

  • posix (built upon MinGW-w64’s winpthreads)
    • “an implementation of POSIX threads for win32 is also available under the experimental directory. Its main goal is to support C++11 standard threading, which supports only using POSIX threads at the moment.” http://mingw-w64.sourceforge.net/
    • enables C++11 library features contained in the headers <thread>, <mutex>, and <future>.
    • Performance degradation in specific scenarios. C++11 functionality is significantly slower than native Win32 implementation or even MSVS2012’s implementation.
  • win32
    • uses native Win32 threading functions.
    • no C++11 <thread>, <mutex>, or <future>
    • best performance

More reading: http://sourceforge.net/mailarchive/message.php?msg_id=28014658

Criteria for original decision on toolchain

Following criteria for selecting the mingw package have been brought up on the mailing list . The comments about mingw-builds, rubenvb might not be up to date any more.

  • Ease of installation
    • rubenvb: different packages (host x target etc) can be confusing. no additional configuration needed when not cross-compiling.
    • mingw-builds: 32 bit binaries do not have prefix, but requires additions to configure / mkspecs (to switch to 64 bit target)
  • Stability/Quality
    • mingw-builds: no issues in latest packages
    • rubenvb: no issues in latest packages
  • most recent compilers (GCC 4.7 preferably, GCC 4.6 if not)
    • mingw-builds: GCC 4.7.2 (and GCC 4.8 prerelease in testing [sourceforge.net])
    • rubenvb: GCC 4.7.2 (and GCC 4.8 prerelease in unstable) and a 32-bit Clang 3.2 [sourceforge.net] targetting Win32/Personal Builds/rubenvb/clang-3.2-release/
  • working GDB and tested with Creator (with required Python support)
    • mingw-builds: 7.5.1
    • rubenvb: 7.5
  • large file support (aka _FILE_OFFSET_BITS=64)
    • mingw-builds: yes (_FILE_OFFSET_BITS in headers, also e.g. lseek64 symbol defined)
    • rubenvb: yes (_FILE_OFFSET_BITS in headers, also e.g. lseek64 symbol defined)
  • threading
    • mingw-builds: gcc -v says ‘posix’ or ‘win32’ depending on which build you download
    • rubenvb: gcc -v says ‘win32’ . std::thread support in experimental package [sourceforge.net] targetting Win64/Personal Builds/rubenvb/gcc-4.7-experimental-stdthread//Personal Builds/rubenvb/gcc-4.7-experimental-stdthread/
  • zero-overhead exceptions (no SJLJ exceptions)
    • rubenvb: 32-bit GCC dw2 builds provided, and GCC 4.8 prerelease is 64-bit seh.
    • mingw-builds: 32-bit GCC dw2 builds provided, and GCC 4.8 prerelease is 64-bit seh.
  • standard win32 headers, if possible using the Platform SDK headers
    • rubenvb: Win32 API, DirectX (from WINE project), and DDK (from ReactOS project)
    • mingw-builds: Win32 API, DirectX (from WINE project) and DDK (from ReactOS project)
  • large set of included libraries
    • rubenvb: none, only Win32 and GCC libraries provided.
    • mingw-builds: libcharset, libiconv, libksguid, libportabledeviceguids, libsensorsapi, libwindowscodecs, libwinhttp
  • 32 and 64-bit in one package
    • rubenv: 64 bit or 32 bit are seperate packages
    • mingw-builds: both 32 bit and 64 bit host, 32 bit and 64 bit target
  • make with -j support
    • rubenvb: -j seems to work
    • mingw-builds: -j seems to work
    • NOTE: Qt’s own “jom” tool can be used to build Qt and CMake “MinGW Makefiles” with much better performance than mingw32-make

MinGW-builds (with OpenSSL, ICU and QtWebKit)

Notes

  • We compile our own OpenSSL and ICU binaries instead of using prebuilt binaries to avoid additional dependencies on the Visual C++ 2008/2010 runtimes

Prerequisites

Initial Setup

Extract MinGW-builds GCC 4.8.2 64-bit to C:\Qt\mingw64-4.8.2

Building OpenSSL

See also Compiling OpenSSL with MinGW

Building ICU

See also Compiling ICU with MinGW

Building Qt

  • Note: If you are using the Qt 5 source .tar.gz, you need to do the following for configure.exe to build properly:
    • Start a Windows command prompt
  • Start a Windows command prompt

Note: If you want to build using ANGLE instead of desktop OpenGL, remove “-opengl desktop” from configure.

Errors

If you run into
or alike see https://bugreports.qt.io/browse/QTBUG-28845

Qt-builds

Notes

Prerequisites

Initial Setup

  • Extract MSYS C:\QtSDK\MSYS.
  • Run MSYS and checkout scripts:

Building Qt

Now scripts provide building Qt-4.8.4, Qt-5.0.0, Qt-5.0.1, Qt-5.0.2, Qt5 from git with latest release of QtCreator, qbs(from git). Buildinq Qt is simple by run:
For example,
build 32-bit Qt-5.0.0 with QtCreator-2.7.0 and install them into C:/QtSDK/Qt32-5.0.0, Qt dependencies and prerequisites will be installed into C:/QtSDK/ported32.

For building Qt5 from git you need specify branch what you want to build. If you don’t specify branch then by default building stable branch.
This command download qt5 from git stable branch and try to build 32-bit version of Qt5.

Note: If you want to move Qt directory elsewhere than after moving you need to execute from QTDIR:

Other useful options are:

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