高级用法

添加新配置特征

qmake lets you create your own features that can be included in project files by adding their names to the list of values specified by the CONFIG variable. Features are collections of custom functions and definitions in .prf files that can reside in one of many standard directories. The locations of these directories are defined in a number of places, and qmake checks each of them in the following order when it looks for .prf files:

  1. In a directory listed in the QMAKEFEATURES environment variable that contains a list of directories delimited by the platform's path list separator (colon for Unix, semicolon for Windows).
  2. In a directory listed in the QMAKEFEATURES property variable that contains a list of directories delimited by the platform's path list separator.
  3. In a features directory residing within a mkspecs 目录。 mkspecs directories can be located beneath any of the directories listed in the QMAKEPATH environment variable that contains a list of directories delimited by the platform's path list separator. For example: $QMAKEPATH/mkspecs/<features> .
  4. In a features directory residing beneath the directory provided by the QMAKESPEC 环境变量。例如: $QMAKESPEC/<features> .
  5. In a features directory residing in the data_install/mkspecs directory. For example: data_install/mkspecs/<features> .
  6. In a features directory that exists as a sibling of the directory specified by the QMAKESPEC 环境变量。例如: $QMAKESPEC/../<features> .

The following features directories are searched for features files:

  1. features/unix , features/win32 ,或 features/macx , depending on the platform in use
  2. features/

For example, consider the following assignment in a project file:

CONFIG += myfeatures
					

With this addition to the CONFIG variable, qmake will search the locations listed above for the myfeatures.prf file after it has finished parsing your project file. On Unix systems, it will look for the following file:

  1. $QMAKEFEATURES/myfeatures.prf (for each directory listed in the QMAKEFEATURES environment variable)
  2. $$QMAKEFEATURES/myfeatures.prf (for each directory listed in the QMAKEFEATURES property variable)
  3. myfeatures.prf (in the project's root directory). The project root is determined by the top-level .pro file. However, if you place the .qmake.cache file in a sub-directory or the directory of a sub-project, then the project root becomes the sub-directory itself.
  4. $QMAKEPATH/mkspecs/features/unix/myfeatures.prf and $QMAKEPATH/mkspecs/features/myfeatures.prf (for each directory listed in the QMAKEPATH environment variable)
  5. $QMAKESPEC/features/unix/myfeatures.prf and $QMAKESPEC/features/myfeatures.prf
  6. data_install/mkspecs/features/unix/myfeatures.prf and data_install/mkspecs/features/myfeatures.prf
  7. $QMAKESPEC/../features/unix/myfeatures.prf and $QMAKESPEC/../features/myfeatures.prf

注意: .prf files must have names in lower case.

安装文件

It is common on Unix to also use the build tool to install applications and libraries; for example, by invoking make install . For this reason, qmake has the concept of an install set , an object which contains instructions about the way a part of a project is to be installed. For example, a collection of documentation files can be described in the following way:

documentation.path = /usr/local/program/doc
documentation.files = docs/*
					

path member informs qmake that the files should be installed in /usr/local/program/doc (the path member), and the 文件 member specifies the files that should be copied to the installation directory. In this case, everything in the docs directory will be copied to /usr/local/program/doc .

Once an install set has been fully described, you can append it to the install list with a line like this:

INSTALLS += documentation
					

qmake will ensure that the specified files are copied to the installation directory. If you require more control over this process, you can also provide a definition for the extra member of the object. For example, the following line tells qmake to execute a series of commands for this install set:

unix:documentation.extra = create_docs; mv master.doc toc.doc
					

unix scope ensures that these particular commands are only executed on Unix platforms. Appropriate commands for other platforms can be defined using other scope rules.

Commands specified in the extra member are executed before the instructions in the other members of the object are performed.

If you append a built-in install set to the INSTALLS variable and do not specify 文件 or extra members, qmake will decide what needs to be copied for you. Currently, the target and dlltarget install sets are supported. For example:

target.path = /usr/local/myprogram
INSTALLS += target
					

In the above lines, qmake knows what needs to be copied, and will handle the installation process automatically.

添加自定义目标

qmake tries to do everything expected of a cross-platform build tool. This is often less than ideal when you really need to run special platform-dependent commands. This can be achieved with specific instructions to the different qmake backends.

Customization of the Makefile output is performed through an object-style API as found in other places in qmake. Objects are defined automatically by specifying their members 。例如:

mytarget.target = .buildfile
mytarget.commands = touch $$mytarget.target
mytarget.depends = mytarget2
mytarget2.commands = @echo Building $$mytarget.target
					

The definitions above define a qmake target called mytarget , containing a Makefile target called .buildfile which in turn is generated with the touch command. Finally, the .depends member specifies that mytarget depends on mytarget2 , another target that is defined afterwards. mytarget2 is a dummy target. It is only defined to echo some text to the console.

The final step is to use the QMAKE_EXTRA_TARGETS variable to instruct qmake that this object is a target to be built:

QMAKE_EXTRA_TARGETS += mytarget mytarget2
					

This is all you need to do to actually build custom targets. Of course, you may want to tie one of these targets to the qmake build target . To do this, you simply need to include your Makefile target in the list of PRE_TARGETDEPS .

Custom target specifications support the following members:

成员 描述
命令 The commands for generating the custom build target.
CONFIG Specific configuration options for the custom build target. Can be set to recursive to indicate that rules should be created in the Makefile to call the relevant target inside the sub-target specific Makefile. This member defaults to creating an entry for each of the sub-targets.
depends The existing build targets that the custom build target depends on.
recurse Specifies which sub-targets should be used when creating the rules in the Makefile to call in the sub-target specific Makefile. This member is used only when recursive 有设置在 CONFIG . Typical values are "Debug" and "Release".
recurse_target Specifies the target that should be built via the sub-target Makefile for the rule in the Makefile. This member adds something like $(MAKE) -f Makefile.[subtarget] [recurse_target] . This member is used only when recursive 有设置在 CONFIG .
target The name of the custom build target.

添加编译器

It is possible to customize qmake to support new compilers and preprocessors:

new_moc.output  = moc_${QMAKE_FILE_BASE}.cpp
new_moc.commands = moc ${QMAKE_FILE_NAME} -o ${QMAKE_FILE_OUT}
new_moc.depend_command = g++ -E -M ${QMAKE_FILE_NAME} | sed "s,^.*: ,,"
new_moc.input = NEW_HEADERS
QMAKE_EXTRA_COMPILERS += new_moc
					

With the above definitions, you can use a drop-in replacement for moc if one is available. The command is executed on all arguments given to the NEW_HEADERS variable (from the input member), and the result is written to the file defined by the output member. This file is added to the other source files in the project. Additionally, qmake will execute depend_command to generate dependency information, and place this information in the project as well.

Custom compiler specifications support the following members:

成员 描述
命令 The commands used for for generating the output from the input.
CONFIG Specific configuration options for the custom compiler. See the CONFIG table for details.
depend_command Specifies a command used to generate the list of dependencies for the output.
dependency_type Specifies the type of file the output is. If it is a known type (such as TYPE_C, TYPE_UI, TYPE_QRC), it is handled as one of those type of files.
depends Specifies the dependencies of the output file.
input The variable that specifies the files that should be processed with the custom compiler.
名称 A description of what the custom compiler is doing. This is only used in some backends.
output The filename that is created from the custom compiler.
output_function Specifies a custom qmake function that is used to specify the filename to be created.
variables Indicates that the variables specified here are replaced with $(QMAKE_COMP_VARNAME) when referred to in the pro file as $(VARNAME).
variable_out The variable that the files created from the output should be added to.

The CONFIG member supports the following options:

选项 描述
combine Indicates that all of the input files are combined into a single output file.
target_predeps Indicates that the output should be added to the list of PRE_TARGETDEPS .
explicit_dependencies The dependencies for the output only get generated from the depends member and from nowhere else.
dep_existing_only Every dependency that is a result of .depend_command is checked for existence. Non-existing dependencies are ignored. This value was introduced in Qt 5.13.2.
dep_lines The output from the .depend_command is interpreted to be one file per line. The default is to split on whitespace and is maintained only for backwards compatibility reasons.
no_link Indicates that the output should not be added to the list of objects to be linked in.

库依赖

Often when linking against a library, qmake relies on the underlying platform to know what other libraries this library links against, and lets the platform pull them in. In many cases, however, this is not sufficient. For example, when statically linking a library, no other libraries are linked to, and therefore no dependencies to those libraries are created. However, an application that later links against this library will need to know where to find the symbols that the static library will require. qmake attempts to keep track of the dependencies of a library, where appropriate, if you explicitly enable tracking.

The first step is to enable dependency tracking in the library itself. To do this you must tell qmake to save information about the library:

CONFIG += create_prl
					

This is only relevant to the lib template, and will be ignored for all others. When this option is enabled, qmake will create a file ending in .prl which will save some meta-information about the library. This metafile is just like an ordinary project file, but only contains internal variable declarations. When installing this library, by specifying it as a target in an INSTALLS declaration, qmake will automatically copy the .prl file to the installation path.

The second step in this process is to enable reading of this meta information in the applications that use the static library:

CONFIG += link_prl
					

When this is enabled, qmake will process all libraries linked to by the application and find their meta-information. qmake will use this to determine the relevant linking information, specifically adding values to the application project file's list of DEFINES LIBS . Once qmake has processed this file, it will then look through the newly introduced libraries in the LIBS variable, and find their dependent .prl files, continuing until all libraries have been resolved. At this point, the Makefile is created as usual, and the libraries are linked explicitly against the application.

The .prl files should be created by qmake only, and should not be transferred between operating systems, as they may contain platform-dependent information.