setFileExtensions
Class: target.BuildTool
Namespace: target
Syntax
myBuildTool.setFileExtensions(fileTypeName,extensionValues)
Description
myBuildTool.setFileExtensions(
sets the file extensions for the named file type to the specified value.fileTypeName
,extensionValues
)
If the FileExtensions
property does not contain the corresponding
target.FileExtensionSet
object, the method appends a new object.
If the file type name is not listed in the target.BuildToolType
object,
the method produces an error.
Input Arguments
fileTypeName
— File type
character vector | string
Name of file type.
Example: cCompiler.setFileExtensions('Source',
'.cx');
extensionValues
— Extension values
cell array of character vectors | string array
New value for file extensions.
Example: cCompiler.setFileExtensions('Header',
{'.hx'});
Examples
Define GCC-Based Toolchain for Windows Development Computer
Create a target.Toolchain
object and specify the operating system.
mingwtc = target.create("Toolchain",Name="Example MinGW Toolchain", ... HostOperatingSystemSupport=target.HostOperatingSystemSupport.WindowsOnly);
Place the binary files folder of the MinGW® toolchain on the system search path.
mingwtc.EnvironmentConfiguration.SystemPaths{end+1} = "$(MW_MINGW64_LOC)/bin";
Associate the toolchain with the target hardware, which is your Windows® development computer.
mingwtc.SupportedHardware = target.create("HardwareComponentSupport", ... Component=target.get("Processor","Intel-x86-64 (Windows64)"));
Specify that the toolchain is based on a GNU Make makefile.
mingwtc.Builder = target.create("MakefileBuilder","GMake");
Specify the assembler.
assembler = target.create("BuildTool",Assembler="as", ... Name="Example GNU Assembler"); mingwtc.Tools(end+1) = assembler;
For the Windows operating system, specify C and C++ compilers that use command files and generate object files with the .obj
extension.
cCompiler = target.create("BuildTool","C Compiler","gcc", ... Name="MinGW GCC C Compiler"); cCompiler.setDirective("CommandFile","@"); cCompiler.setFileExtensions("Object",".obj"); mingwtc.Tools(end+1) = cCompiler; cppCompiler = target.create("BuildTool","C++ Compiler","g++", ... Name="MinGW GCC C++ Compiler"); cppCompiler.setDirective("CommandFile","@"); cppCompiler.setFileExtensions("Object",".obj"); mingwtc.Tools(end+1) = cppCompiler;
Through directives and file extension settings, specify C and C++ linkers that:
Support the generation of dynamic link libraries (DLLs)
Group libraries that have circular dependencies
Use command files
Create files for Windows
cLinker = target.create("BuildTool",Linker="gcc", ... Name="MinGW Linker", ... HostOperatingSystemSupport=target.HostOperatingSystemSupport.WindowsOnly); cLinker.setDirective("Shared", ... "-shared -Wl,--out-implib,$(notdir $(basename $(PRODUCT))).lib"); cLinker.setDirective("LibraryGroup","-Wl,--start-group","-Wl,--end-group"); cLinker.setDirective("CommandFile","@"); cLinker.setFileExtensions("Object",".obj"); cLinker.setFileExtensions("Executable",".exe"); cLinker.setFileExtensions("Shared Library",".dll"); mingwtc.Tools(end+1) = cLinker; cppLinker = target.create("BuildTool",Copy=cLinker, ... Name="MinGW C++ Linker", ... BuildToolType=target.get("BuildToolType","C++ Linker"), ... Command=target.create("Command","g++")); mingwtc.Tools(end+1) = cppLinker;
In this example, you create the cppLinker
object by creating a copy of cLinker
and modifying properties of the copy.
Specify an archiver.
archiver = target.create("BuildTool",Archiver="ar ruvs", ... Name="Example GNU Archiver"); archiver.setFileExtensions("Object",".obj"); mingwtc.Tools(end+1) = archiver;
Specify a make
tool.
maketool = target.create('BuildTool', 'Make Tool', 'mingw32-make -j$(MAX_MAKE_JOBS) -l$(MAX_MAKE_LOAD_AVG)', ... 'Name', 'MinGW GNU Make', ... 'HostOperatingSystemSupport', target.HostOperatingSystemSupport.WindowsOnly); mingwtc.Tools(end+1) = maketool;
The -j
flag enables parallel processing of the make
command. The $(MAX_MAKE_JOBS)
token expands to the minimum of these values:
Number of cores on your system
maxNumCompThreads
, which avoids system overload when you have explicitly usedmaxNumCompThreads
to limit utilization of resources.0.5 * system RAM size in GiB (rounded upwards to the nearest integer), which avoids memory oversubscription and reduced performance due to swap file usage.
16
If the make
command is run on a parallel build worker, the token expands to 1. This value prevents the number of spawned external processes from growing quadratically with respect to the number of system cores when parallelism is implemented at a higher level of the workflow.
If you want to always use the number of cores on your system, specify the $(NUM_CORES)
token instead of $(MAX_MAKE_JOBS)
.
The -l
flag prevents system overloading. The flag limits, based on the system load, the spawning of parallel make
processes. The $(MAX_MAKE_LOAD_AVG)
token expands to the number of cores on your system.
Specify basic system tools like echo
, del
, and move
, which the makefile uses to display, delete, and move files. The predefined target.Toolset
object contains the tool definitions.
basictools = target.get("Toolset","Windows system tools for Makefiles"); mingwtc.Tools(end+1) = basictools;
Specify standard dependencies:
C math and Winsock libraries to link with the compiled generated code
Compiler flags that are always passed to the C and C++ compilers
mingwtc.BuildRequirements.SharedLibraries{end+1} = "m"; mingwtc.BuildRequirements.SharedLibraries{end+1} = "ws2_32"; mingwtc.BuildRequirements.CompilerFlags{end+1} = "-fwrapv"; mingwtc.BuildRequirements.CompilerFlags{end+1} = "-fPIC"; mingwtc.BuildRequirements.LinkerFlags{end+1} = "-static"; mingwtc.BuildRequirements.LinkerFlags{end+1} = "-m64";
Add the toolchain definition to the internal database.
target.add(mingwtc);
target.add summary: Objects added to internal database for current MATLAB session: target.Toolchain "Example MinGW Toolchain" 10 objects not added because they already exist.
To use the custom toolchain definition for building generated code, in the Configuration Parameters dialog box:
On the Hardware Implementation pane, select your target device by setting Device vendor to
Intel
and Device type tox86-64 (Windows64)
.On the Code Generation pane, from the Toolchain list, select
Example MinGW Toolchain
.Click OK.
When you run, for example, the slbuild
function or a software-in-the-loop (SIL) simulation, the build process uses the custom toolchain to build generated code.
If you want to remove the custom toolchain definition from the internal database, enter:
customToolChainDef = target.get("Toolchain","Example MinGW Toolchain"); target.remove(customToolChainDef);
target.remove summary: Objects removed from internal database: target.Toolchain "Example MinGW Toolchain"
Version History
Introduced in R2023a
MATLAB Command
You clicked a link that corresponds to this MATLAB command:
Run the command by entering it in the MATLAB Command Window. Web browsers do not support MATLAB commands.
Select a Web Site
Choose a web site to get translated content where available and see local events and offers. Based on your location, we recommend that you select: .
You can also select a web site from the following list
How to Get Best Site Performance
Select the China site (in Chinese or English) for best site performance. Other MathWorks country sites are not optimized for visits from your location.
Americas
- América Latina (Español)
- Canada (English)
- United States (English)
Europe
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)
Asia Pacific
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)