This document provides usage information about the LLVM makefile system. While
loosely patterned after the BSD makefile system, LLVM has taken a departure from
BSD in order to implement additional features needed by LLVM. Although makefile
systems, such as automake
, were attempted at one point, it has become clear
that the features needed by LLVM and the Makefile
norm are too great to use
a more limited tool. Consequently, LLVM requires simply GNU Make 3.79, a widely
portable makefile processor. LLVM unabashedly makes heavy use of the features of
GNU Make so the dependency on GNU Make is firm. If you're not familiar with
make
, it is recommended that you read the GNU Makefile Manual.
While this document is rightly part of the LLVM Programmer's Manual, it is treated separately here because of the volume of content and because it is often an early source of bewilderment for new developers.
The LLVM Makefile System is the component of LLVM that is responsible for building the software, testing it, generating distributions, checking those distributions, installing and uninstalling, etc. It consists of a several files throughout the source tree. These files and other general concepts are described in this section.
The LLVM Makefile System is quite generous. It not only builds its own software,
but it can build yours too. Built into the system is knowledge of the
llvm/projects
directory. Any directory under projects
that has both a
configure
script and a Makefile
is assumed to be a project that uses the
LLVM Makefile system. Building software that uses LLVM does not require the
LLVM Makefile System nor even placement in the llvm/projects
directory. However, doing so will allow your project to get up and running
quickly by utilizing the built-in features that are used to compile LLVM. LLVM
compiles itself using the same features of the makefile system as used for
projects.
For complete details on setting up your projects configuration, simply mimic the
llvm/projects/sample
project. Or for further details, consult the
Projects page.
To use the makefile system, you simply create a file named Makefile
in your
directory and declare values for certain variables. The variables and values
that you select determine what the makefile system will do. These variables
enable rules and processing in the makefile system that automatically Do The
Right Thing (C).
Setting variables alone is not enough. You must include into your Makefile additional files that provide the rules of the LLVM Makefile system. The various files involved are described in the sections that follow.
Each directory to participate in the build needs to have a file named
Makefile
. This is the file first read by make
. It has three
sections:
- Settable Variables --- Required that must be set first.
include $(LEVEL)/Makefile.common
--- include the LLVM Makefile system.- Override Variables --- Override variables set by the LLVM Makefile system.
Every project must have a Makefile.common
file at its top source
directory. This file serves three purposes:
- It includes the project's configuration makefile to obtain values determined
by the
configure
script. This is done by including the $(LEVEL)/Makefile.config file. - It specifies any other (static) values that are needed throughout the project. Only values that are used in all or a large proportion of the project's directories should be placed here.
- It includes the standard rules for the LLVM Makefile system,
$(LLVM_SRC_ROOT)/Makefile.rules. This file is the guts of the LLVM
Makefile
system.
Every project must have a Makefile.config
at the top of its build
directory. This file is generated by the configure
script from the
pattern provided by the Makefile.config.in
file located at the top of the
project's source directory. The contents of this file depend largely on what
configuration items the project uses, however most projects can get what they
need by just relying on LLVM's configuration found in
$(LLVM_OBJ_ROOT)/Makefile.config
.
This file, located at $(LLVM_SRC_ROOT)/Makefile.rules
is the heart of the
LLVM Makefile System. It provides all the logic, dependencies, and rules for
building the targets supported by the system. What it does largely depends on
the values of make
variables that have been set before
Makefile.rules
is included.
User Makefile
s need not have comments in them unless the construction is
unusual or it does not strictly follow the rules and patterns of the LLVM
makefile system. Makefile comments are invoked with the pound (#
) character.
The #
character and any text following it, to the end of the line, are
ignored by make
.
This section provides some examples of the different kinds of modules you can build with the LLVM makefile system. In general, each directory you provide will build a single object although that object may be composed of additionally compiled components.
Only a few variable definitions are needed to build a regular library.
Normally, the makefile system will build all the software into a single
libname.o
(pre-linked) object. This means the library is not searchable and
that the distinction between compilation units has been dissolved. Optionally,
you can ask for a shared library (.so) or archive library (.a) built. Archive
libraries are the default. For example:
LIBRARYNAME = mylib
SHARED_LIBRARY = 1
ARCHIVE_LIBRARY = 1
says to build a library named mylib
with both a shared library
(mylib.so
) and an archive library (mylib.a
) version. The contents of all
the libraries produced will be the same, they are just constructed differently.
Note that you normally do not need to specify the sources involved. The LLVM
Makefile system will infer the source files from the contents of the source
directory.
The LOADABLE_MODULE=1
directive can be used in conjunction with
SHARED_LIBRARY=1
to indicate that the resulting shared library should be
openable with the dlopen
function and searchable with the dlsym
function
(or your operating system's equivalents). While this isn't strictly necessary on
Linux and a few other platforms, it is required on systems like HP-UX and
Darwin. You should use LOADABLE_MODULE
for any shared library that you
intend to be loaded into an tool via the -load
option. Pass documentation has an example of why you might want to do
this.
In some situations, it is desirable to build a single bitcode module from a variety of sources, instead of an archive, shared library, or bitcode library. Bitcode modules can be specified in addition to any of the other types of libraries by defining the MODULE_NAME variable. For example:
LIBRARYNAME = mylib
BYTECODE_LIBRARY = 1
MODULE_NAME = mymod
will build a module named mymod.bc
from the sources in the directory. This
module will be an aggregation of all the bitcode modules derived from the
sources. The example will also build a bitcode archive containing a bitcode
module for each compiled source file. The difference is subtle, but important
depending on how the module or library is to be linked.
In some situations, you need to create a loadable module. Loadable modules can
be loaded into programs like opt
or llc
to specify additional passes to
run or targets to support. Loadable modules are also useful for debugging a
pass or providing a pass with another package if that pass can't be included in
LLVM.
LLVM provides complete support for building such a module. All you need to do is
use the LOADABLE_MODULE
variable in your Makefile
. For example, to build
a loadable module named MyMod
that uses the LLVM libraries LLVMSupport.a
and LLVMSystem.a
, you would specify:
LIBRARYNAME := MyMod
LOADABLE_MODULE := 1
LINK_COMPONENTS := support system
Use of the LOADABLE_MODULE
facility implies several things:
- There will be no "
lib
" prefix on the module. This differentiates it from - a standard shared library of the same name.
- There will be no "
- The SHARED_LIBRARY variable is turned on.
- The LINK_LIBS_IN_SHARED variable is turned on.
A loadable module is loaded by LLVM via the facilities of libtool's libltdl
library which is part of lib/System
implementation.
For building executable programs (tools), you must provide the name of the tool and the names of the libraries you wish to link with the tool. For example:
TOOLNAME = mytool
USEDLIBS = mylib
LINK_COMPONENTS = support system
says that we are to build a tool name mytool
and that it requires three
libraries: mylib
, LLVMSupport.a
and LLVMSystem.a
.
Note that two different variables are used to indicate which libraries are
linked: USEDLIBS
and LLVMLIBS
. This distinction is necessary to support
projects. LLVMLIBS
refers to the LLVM libraries found in the LLVM object
directory. USEDLIBS
refers to the libraries built by your project. In the
case of building LLVM tools, USEDLIBS
and LLVMLIBS
can be used
interchangeably since the "project" is LLVM itself and USEDLIBS
refers to
the same place as LLVMLIBS
.
Also note that there are two different ways of specifying a library: with a
.a
suffix and without. Without the suffix, the entry refers to the re-linked
(.o) file which will include all symbols of the library. This is
useful, for example, to include all passes from a library of passes. If the
.a
suffix is used then the library is linked as a searchable library (with
the -l
option). In this case, only the symbols that are unresolved at
that point will be resolved from the library, if they exist. Other
(unreferenced) symbols will not be included when the .a
syntax is used. Note
that in order to use the .a
suffix, the library in question must have been
built with the ARCHIVE_LIBRARY
option set.
Many tools will want to use the JIT features of LLVM. To do this, you simply specify that you want an execution 'engine', and the makefiles will automatically link in the appropriate JIT for the host or an interpreter if none is available:
TOOLNAME = my_jit_tool
USEDLIBS = mylib
LINK_COMPONENTS = engine
Of course, any additional libraries may be listed as other components. To get a full understanding of how this changes the linker command, it is recommended that you:
% cd examples/Fibonacci
% make VERBOSE=1
This section describes each of the targets that can be built using the LLVM Makefile system. Any target can be invoked from any directory but not all are applicable to a given directory (e.g. "check", "dist" and "install" will always operate as if invoked from the top level directory).
Target Name | Implied Targets | Target Description |
---|---|---|
all |
Compile the software recursively. Default target. | |
all-local |
Compile the software in the local directory only. | |
check |
Change to the test directory in a project and run the test suite there. |
|
check-local |
Run a local test suite. Generally this is only defined in the Makefile of the project's test directory. |
|
clean |
Remove built objects recursively. | |
clean-local |
Remove built objects from the local directory only. | |
dist |
all |
Prepare a source distribution tarball. |
dist-check |
all |
Prepare a source distribution tarball and check that it builds. |
dist-clean |
clean |
Clean source distribution tarball temporary files. |
install |
all |
Copy built objects to installation directory. |
preconditions |
all |
Check to make sure configuration and makefiles are up to date. |
printvars |
all |
Prints variables defined by the makefile system (for debugging). |
tags |
Make C and C++ tags files for emacs and vi. | |
uninstall |
Remove built objects from installation directory. |
When you invoke make
with no arguments, you are implicitly instructing it to
seek the all
target (goal). This target is used for building the software
recursively and will do different things in different directories. For example,
in a lib
directory, the all
target will compile source files and
generate libraries. But, in a tools
directory, it will link libraries and
generate executables.
This target is the same as all but it operates only on the current directory instead of recursively.
This target can be invoked from anywhere within a project's directories but
always invokes the check-local target in the project's test
directory, if
it exists and has a Makefile
. A warning is produced otherwise. If
TESTSUITE is defined on the make
command line, it will be passed down to
the invocation of make check-local
in the test
directory. The intended
usage for this is to assist in running specific suites of tests. If
TESTSUITE
is not set, the implementation of check-local
should run all
normal tests. It is up to the project to define what different values for
TESTSUTE
will do. See the :doc:`Testing Guide <TestingGuide>` for further
details.
This target should be implemented by the Makefile
in the project's test
directory. It is invoked by the check
target elsewhere. Each project is
free to define the actions of check-local
as appropriate for that
project. The LLVM project itself uses the :doc:`Lit <CommandGuide/lit>` testing
tool to run a suite of feature and regression tests. Other projects may choose
to use :program:`lit` or any other testing mechanism.
This target cleans the build directory, recursively removing all things that the
Makefile builds. The cleaning rules have been made guarded so they shouldn't go
awry (via rm -f $(UNSET_VARIABLE)/*
which will attempt to erase the entire
directory structure).
This target does the same thing as clean
but only for the current (local)
directory.
This target builds a distribution tarball. It first builds the entire project
using the all
target and then tars up the necessary files and compresses
it. The generated tarball is sufficient for a casual source distribution, but
probably not for a release (see dist-check
).
This target does the same thing as the dist
target but also checks the
distribution tarball. The check is made by unpacking the tarball to a new
directory, configuring it, building it, installing it, and then verifying that
the installation results are correct (by comparing to the original build). This
target can take a long time to run but should be done before a release goes out
to make sure that the distributed tarball can actually be built into a working
release.
This is a special form of the clean
clean target. It performs a normal
clean
but also removes things pertaining to building the distribution.
This target finalizes shared objects and executables and copies all libraries,
headers, executables and documentation to the directory given with the
--prefix
option to configure
. When completed, the prefix directory will
have everything needed to use LLVM.
The LLVM makefiles can generate complete internal documentation for all the
classes by using doxygen
. By default, this feature is not enabled
because it takes a long time and generates a massive amount of data (>100MB). If
you want this feature, you must configure LLVM with the --enable-doxygen switch
and ensure that a modern version of doxygen (1.3.7 or later) is available in
your PATH
. You can download doxygen from here.
This utility target checks to see if the Makefile
in the object directory is
older than the Makefile
in the source directory and copies it if so. It also
reruns the configure
script if that needs to be done and rebuilds the
Makefile.config
file similarly. Users may overload this target to ensure
that sanity checks are run before any building of targets as all the targets
depend on preconditions
.
This utility target just causes the LLVM makefiles to print out some of the makefile variables so that you can double check how things are set.
This utility target will force a reconfigure of LLVM or your project. It simply
runs $(PROJ_OBJ_ROOT)/config.status --recheck
to rerun the configuration
tests and rebuild the configured files. This isn't generally useful as the
makefiles will reconfigure themselves whenever its necessary.
Warning
Use with caution!
This utility target, only available when $(PROJ_OBJ_ROOT)
is not the same as
$(PROJ_SRC_ROOT)
, will completely clean the $(PROJ_OBJ_ROOT)
directory
by removing its content entirely and reconfiguring the directory. This returns
the $(PROJ_OBJ_ROOT)
directory to a completely fresh state. All content in
the directory except configured files and top-level makefiles will be lost.
This target will generate a TAGS
file in the top-level source directory. It
is meant for use with emacs, XEmacs, or ViM. The TAGS file provides an index of
symbol definitions so that the editor can jump you to the definition
quickly.
This target is the opposite of the install
target. It removes the header,
library and executable files from the installation directories. Note that the
directories themselves are not removed because it is not guaranteed that LLVM is
the only thing installing there (e.g. --prefix=/usr
).
Variables are used to tell the LLVM Makefile System what to do and to obtain information from it. Variables are also used internally by the LLVM Makefile System. Variable names that contain only the upper case alphabetic letters and underscore are intended for use by the end user. All other variables are internal to the LLVM Makefile System and should not be relied upon nor modified. The sections below describe how to use the LLVM Makefile variables.
Variables listed in the table below should be set before the inclusion of $(LEVEL)/Makefile.common. These variables provide input to the LLVM make system that tell it what to do for the current directory.
BUILD_ARCHIVE
- If set to any value, causes an archive (.a) library to be built.
BUILT_SOURCES
- Specifies a set of source files that are generated from other source files. These sources will be built before any other target processing to ensure they are present.
BYTECODE_LIBRARY
- If set to any value, causes a bitcode library (.bc) to be built.
CONFIG_FILES
- Specifies a set of configuration files to be installed.
DEBUG_SYMBOLS
- If set to any value, causes the build to include debugging symbols even in optimized objects, libraries and executables. This alters the flags specified to the compilers and linkers. Debugging isn't fun in an optimized build, but it is possible.
DIRS
- Specifies a set of directories, usually children of the current directory, that should also be made using the same goal. These directories will be built serially.
DISABLE_AUTO_DEPENDENCIES
- If set to any value, causes the makefiles to not automatically generate dependencies when running the compiler. Use of this feature is discouraged and it may be removed at a later date.
ENABLE_OPTIMIZED
- If set to 1, causes the build to generate optimized objects, libraries and executables. This alters the flags specified to the compilers and linkers. Generally debugging won't be a fun experience with an optimized build.
ENABLE_PROFILING
- If set to 1, causes the build to generate both optimized and profiled
objects, libraries and executables. This alters the flags specified to the
compilers and linkers to ensure that profile data can be collected from the
tools built. Use the
gprof
tool to analyze the output from the profiled tools (gmon.out
). DISABLE_ASSERTIONS
- If set to 1, causes the build to disable assertions, even if building a debug or profile build. This will exclude all assertion check code from the build. LLVM will execute faster, but with little help when things go wrong.
EXPERIMENTAL_DIRS
- Specify a set of directories that should be built, but if they fail, it should not cause the build to fail. Note that this should only be used temporarily while code is being written.
EXPORTED_SYMBOL_FILE
- Specifies the name of a single file that contains a list of the symbols to be exported by the linker. One symbol per line.
EXPORTED_SYMBOL_LIST
- Specifies a set of symbols to be exported by the linker.
EXTRA_DIST
- Specifies additional files that should be distributed with LLVM. All source files, all built sources, all Makefiles, and most documentation files will be automatically distributed. Use this variable to distribute any files that are not automatically distributed.
KEEP_SYMBOLS
- If set to any value, specifies that when linking executables the makefiles should retain debug symbols in the executable. Normally, symbols are stripped from the executable.
LEVEL
(required)- Specify the level of nesting from the top level. This variable must be set in each makefile as it is used to find the top level and thus the other makefiles.
LIBRARYNAME
- Specify the name of the library to be built. (Required For Libraries)
LINK_COMPONENTS
- When specified for building a tool, the value of this variable will be
passed to the
llvm-config
tool to generate a link line for the tool. UnlikeUSEDLIBS
andLLVMLIBS
, not all libraries need to be specified. Thellvm-config
tool will figure out the library dependencies and add any libraries that are needed. TheUSEDLIBS
variable can still be used in conjunction withLINK_COMPONENTS
so that additional project-specific libraries can be linked with the LLVM libraries specified byLINK_COMPONENTS
.
LLVMLIBS
- Specifies the set of libraries from the LLVM
$(ObjDir)
that will be linked into the tool or library. LOADABLE_MODULE
- If set to any value, causes the shared library being built to also be a
loadable module. Loadable modules can be opened with the dlopen() function
and searched with dlsym (or the operating system's equivalent). Note that
setting this variable without also setting
SHARED_LIBRARY
will have no effect.
MODULE_NAME
- Specifies the name of a bitcode module to be created. A bitcode module can be specified in conjunction with other kinds of library builds or by itself. It constructs from the sources a single linked bitcode file.
NO_INSTALL
- Specifies that the build products of the directory should not be installed
but should be built even if the
install
target is given. This is handy for directories that build libraries or tools that are only used as part of the build process, such as code generators (e.g.tblgen
). OPTIONAL_DIRS
- Specify a set of directories that may be built, if they exist, but it is not an error for them not to exist.
PARALLEL_DIRS
- Specify a set of directories to build recursively and in parallel if the
-j
option was used withmake
.
TESTSUITE
- Specifies the directory of tests to run in
llvm/test
. TOOLNAME
- Specifies the name of the tool that the current directory should build.
TOOL_VERBOSE
- Implies
VERBOSE
and also tells each tool invoked to be verbose. This is handy when you're trying to see the sub-tools invoked by each tool invoked by the makefile. For example, this will pass-v
to the GCC compilers which causes it to print out the command lines it uses to invoke sub-tools (compiler, assembler, linker).
USEDLIBS
- Specifies the list of project libraries that will be linked into the tool or library.
VERBOSE
- Tells the Makefile system to produce detailed output of what it is doing instead of just summary comments. This will generate a LOT of output.
Override variables can be used to override the default values provided by the LLVM makefile system. These variables can be set in several ways:
- In the environment (e.g. setenv, export) --- not recommended.
- On the
make
command line --- recommended. - On the
configure
command line. - In the Makefile (only after the inclusion of $(LEVEL)/Makefile.common).
The override variables are given below:
AR
(defaulted)- Specifies the path to the
ar
tool. PROJ_OBJ_DIR
- The directory into which the products of build rules will be placed. This might be the same as PROJ_SRC_DIR but typically is not.
PROJ_SRC_DIR
- The directory which contains the source files to be built.
BUILD_EXAMPLES
- If set to 1, build examples in
examples
and (if building Clang)tools/clang/examples
directories. BZIP2
(configured)- The path to the
bzip2
tool. CC
(configured)- The path to the 'C' compiler.
CFLAGS
- Additional flags to be passed to the 'C' compiler.
CPPFLAGS
- Additional flags passed to the C/C++ preprocessor.
CXX
- Specifies the path to the C++ compiler.
CXXFLAGS
- Additional flags to be passed to the C++ compiler.
DATE
(configured)- Specifies the path to the
date
program or any program that can generate the current date and time on its standard output. DOT
(configured)- Specifies the path to the
dot
tool orfalse
if there isn't one. ECHO
(configured)- Specifies the path to the
echo
tool for printing output. EXEEXT
(configured)- Provides the extension to be used on executables built by the makefiles. The value may be empty on platforms that do not use file extensions for executables (e.g. Unix).
INSTALL
(configured)- Specifies the path to the
install
tool. LDFLAGS
(configured)- Allows users to specify additional flags to pass to the linker.
LIBS
(configured)- The list of libraries that should be linked with each tool.
LIBTOOL
(configured)- Specifies the path to the
libtool
tool. This tool is renamedmklib
by theconfigure
script. LLVMAS
(defaulted)- Specifies the path to the
llvm-as
tool. LLVMCC
- Specifies the path to the LLVM capable compiler.
LLVMCXX
- Specifies the path to the LLVM C++ capable compiler.
LLVMGCC
(defaulted)- Specifies the path to the LLVM version of the GCC 'C' Compiler.
LLVMGXX
(defaulted)- Specifies the path to the LLVM version of the GCC C++ Compiler.
LLVMLD
(defaulted)- Specifies the path to the LLVM bitcode linker tool
LLVM_OBJ_ROOT
(configured)- Specifies the top directory into which the output of the build is placed.
LLVM_SRC_ROOT
(configured)- Specifies the top directory in which the sources are found.
LLVM_TARBALL_NAME
(configured)- Specifies the name of the distribution tarball to create. This is configured from the name of the project and its version number.
MKDIR
(defaulted)- Specifies the path to the
mkdir
tool that creates directories. ONLY_TOOLS
- If set, specifies the list of tools to build.
PLATFORMSTRIPOPTS
- The options to provide to the linker to specify that a stripped (no symbols) executable should be built.
RANLIB
(defaulted)- Specifies the path to the
ranlib
tool. RM
(defaulted)- Specifies the path to the
rm
tool. SED
(defaulted)- Specifies the path to the
sed
tool. SHLIBEXT
(configured)- Provides the filename extension to use for shared libraries.
TBLGEN
(defaulted)- Specifies the path to the
tblgen
tool. TAR
(defaulted)- Specifies the path to the
tar
tool. ZIP
(defaulted)- Specifies the path to the
zip
tool.
Variables listed in the table below can be used by the user's Makefile but should not be changed. Changing the value will generally cause the build to go wrong, so don't do it.
bindir
- The directory into which executables will ultimately be installed. This
value is derived from the
--prefix
option given toconfigure
. BuildMode
- The name of the type of build being performed: Debug, Release, or Profile.
bytecode_libdir
- The directory into which bitcode libraries will ultimately be installed.
This value is derived from the
--prefix
option given toconfigure
. ConfigureScriptFLAGS
- Additional flags given to the
configure
script when reconfiguring. DistDir
- The current directory for which a distribution copy is being made.
Echo
- The LLVM Makefile System output command. This provides the
llvm[n]
prefix and starts with@
so the command itself is not printed bymake
. EchoCmd
- Same as Echo but without the leading
@
. includedir
- The directory into which include files will ultimately be installed. This
value is derived from the
--prefix
option given toconfigure
. libdir
- The directory into which native libraries will ultimately be installed.
This value is derived from the
--prefix
option given toconfigure
. LibDir
- The configuration specific directory into which libraries are placed before installation.
MakefileConfig
- Full path of the
Makefile.config
file. MakefileConfigIn
- Full path of the
Makefile.config.in
file. ObjDir
- The configuration and directory specific directory where build objects (compilation results) are placed.
SubDirs
- The complete list of sub-directories of the current directory as specified by other variables.
Sources
- The complete list of source files.
sysconfdir
- The directory into which configuration files will ultimately be
installed. This value is derived from the
--prefix
option given toconfigure
. ToolDir
- The configuration specific directory into which executables are placed before they are installed.
TopDistDir
- The top most directory into which the distribution files are copied.
Verb
- Use this as the first thing on your build script lines to enable or disable
verbose mode. It expands to either an
@
(quiet mode) or nothing (verbose mode).
Variables listed below are used by the LLVM Makefile System and considered internal. You should not use these variables under any circumstances.
Archive
AR.Flags
BaseNameSources
BCCompile.C
BCCompile.CXX
BCLinkLib
C.Flags
Compile.C
CompileCommonOpts
Compile.CXX
ConfigStatusScript
ConfigureScript
CPP.Flags
CPP.Flags
CXX.Flags
DependFiles
DestArchiveLib
DestBitcodeLib
DestModule
DestSharedLib
DestTool
DistAlways
DistCheckDir
DistCheckTop
DistFiles
DistName
DistOther
DistSources
DistSubDirs
DistTarBZ2
DistTarGZip
DistZip
ExtraLibs
FakeSources
INCFiles
InternalTargets
LD.Flags
LibName.A
LibName.BC
LibName.LA
LibName.O
LibTool.Flags
Link
LinkModule
LLVMLibDir
LLVMLibsOptions
LLVMLibsPaths
LLVMToolDir
LLVMUsedLibs
LocalTargets
Module
ObjectsBC
ObjectsLO
ObjectsO
ObjMakefiles
ParallelTargets
PreConditions
ProjLibsOptions
ProjLibsPaths
ProjUsedLibs
Ranlib
RecursiveTargets
SrcMakefiles
Strip
StripWarnMsg
TableGen
TDFiles
ToolBuildPath
TopLevelTargets
UserTargets