Suppose I've a Bazel package with a BUILD.bazel file that contains a list of dependencies. Some dependencies are not in use anymore. How to find the dependencie that are not in use ?
This is a Java project but I think the language is not important.
unused_deps works for Java projects. There is no tool that works for all languages. For C++ a pattern like IWYU can help to decide when and how to make a dependency.
Related
I am trying to use antlr4 in my C++ project. I want to add the antlr4 cpp runtime as a dependency in CMake, but I am not sure how to proceed. The official tutorial uses old CMake syntax, and I am looking for something based on targets.
I was thinking about using Git submodules to download all of antlr4 and then use add_subdirectory to only include what I needed (antlr4/runtime/Cpp). However, that would force my users to download the entire source. Git clone has had a "filter" option since v2.19, but I don't think that's available for subdmodules.
I have been using FetchContent in the past, which was cleaner than submodules imho. However, I am not sure how that would work here, since I do not want to download the entire repo and the CMakeLists.txt file is not in the base folder.
How could I include the antlr4 C++ runtime to my project using modern cmake practices?
I just faced the exact same issue.
After a while of digging, and since no feasible alternative seemed to exist (except for adding the whole repository and just link to the runtime part, which is what you were trying to avoid), I created a standalone repository with the necessary runtime files to compile and link to, plus support for CMake target linking.
In case it is still useful somehow, take a look at it here.
I'm working on a C++ project (I am using CMake) and need to depend on a C library like this one (but uses make): https://github.com/RoaringBitmap/CRoaring
What's the cleanest way for me to integrate that library into my project?
One option is importing that code into my source tree, creating a CMakeLists.txt for that external dependency and using it as a CMake submodule. But I don't want to do that, since that project might evolve, and I just want that code as a git submodule dependency, and not actually committed into my repository.
What you could do is use the build system of make within CMake if you cd into the sources of CRoaring and call external commands within CMakeLists.txt using the execute_process command:
execute_process
With INSTALL_PREFIX you can indicate where to compile that library and cmake would use it then.
This also would mean, that the make compilation starts whenever you trigger configure though I imagine that you could control that a bit. If you want to avoid that add_custom_command could help you on this:
add_custom_command
For Commander Genius we have been using those when building the Windows version and using icotool so the executable gets an application icon embedded into the exe.
Another alternative would be using ExternalProject like indicated in the similar post by Tsyvarev:
ExternalProject
Yet I'm not sure if that call is flexible enough for your needs. It has a lot of options though.
So the cleanest way to use CMake really depends on what you need to do for your project.
I'd like to create a Makefile for a moderately sized C++ project (~110 .cpp and .h files) that was created in Xcode. I don't own a mac, so I can't just go into xcode and export a Makefile.
From my understanding of using Makefiles for simpler projects, I could go through and create a target in my Makefile for each .cpp file, including its prerequisites... but that would require manually looking through each file and sorting out what its dependencies are.
It's my understanding that autoconf is a good tool for this sort of problem, but I haven't been able to figure out how to set it up and I'm not even sure that it's the right tool for the job. So before I go even further down this rabbit hole --
What is the best way to create a Makefile for an existing project without one?
It is rather subjective as to the best tool. Perhaps look at SCONS or gradle to compare for your particular needs.
I think Pbxbuild may help you.
Pbxbuild (not to be confused with the OS X tool of the same name) is used to take Xcode project files and build the code. It does this by creating GNUmakefiles, and using Make to build those.
Any build system (generator) will require some learning on your part. I would suggest using CMake, if you do not mind that CMake will be required wherever anybody tries to build your source. Otherwise I would suggest using the Autoconf/Automake/Libtool combo.
Imagine an overall project with several components:
basic
io
web
app-a
app-b
app-c
Now, let's say web depends on io which depends on basic, and all those things are in one repo and have a CMakeLists.txt to build them as shared libraries.
How should I set things up so that I can build the three apps, if each of them is optional and may not be present at build time?
One idea is to have an empty "apps" directory in the main repo and we can clone whichever app repos we want into that. Our main CMakeLists.txt file can use GLOB to find all the app directories and build them (not knowing in advance how many there will be). Issues with this approach include:
Apparently CMake doesn't re-glob when you just say make, so if you add a new app you must run cmake again.
It imposes a specific structure on the person doing the build.
It's not obvious how one could make two clones of a single app and build them both separately against the same library build.
The general concept is like a traditional recursive CMake project, but where the lower-level modules don't necessarily know in advance which higher-level ones will be using them. Yet, I don't want to require the user to install the lower-level libraries in a fixed location (e.g. /usr/local/lib). I do however want a single invocation of make to notice changed dependencies across the entire project, so that if I'm building an app but have changed one of the low-level libraries, everything will recompile appropriately.
My first thought was to use the CMake import/export target feature.
Have a CMakeLists.txt for basic, io and web and one CMakeLists.txt that references those. You could then use the CMake export feature to export those targets and the application projects could then import the CMake targets.
When you build the library project first the application projects should be able to find the compiled libraries automatically (without the libraries having to be installed to /usr/local/lib) otherwise one can always set up the proper CMake variable to indicate the correct directory.
When doing it this way a make in the application project won't do a make in the library project, you would have to take care of this yourself.
Have multiple CMakeLists.txt.
Many open-source projects take this appraoch (LibOpenJPEG, LibPNG, poppler &etc). Take a look at their CMakeLists.txt to find out how they've done this.
Basically allowing you to just toggle features as required.
I see two additional approaches. One is to simply have basic, io, and web be submodules of each app. Yes, there is duplication of code and wasted disk space, but it is very simple to implement and guarantees that different compiler settings for each app will not interfere with each other across the shared libraries. I suppose this makes the libraries not be shared anymore, but maybe that doesn't need to be a big deal in 2011. RAM and disk have gotten cheaper, but engineering time has not, and sharing of source is arguably more portable than sharing of binaries.
Another approach is to have the layout specified in the question, and have CMakeLists.txt files in each subdirectory. The CMakeLists.txt files in basic, io, and web generate standalone shared libraries. The CMakeLists.txt files in each app directory pull in each shared library with the add_subdirectory() command. You could then pull down all the library directories and whichever app(s) you wanted and initiate the build from within each app directory.
You can use ADD_SUBDIRECTORY for this!
https://cmake.org/cmake/help/v3.11/command/add_subdirectory.html
I ended up doing what I outlined in my question, which is to check in an empty directory (containing a .gitignore file which ignores everything) and tell CMake to GLOB any directories (which are put in there by the user). Then I can just say cmake myrootdir and it does find all the various components. This works more or less OK. It does have some side drawbacks though, such as that some third-party tools like BuildBot expect a more traditional project structure which makes integrating other tools with this sort of arrangement a little more work.
The CMake BASIS tool provides utilities where you can create independent modules of a project and selectively enable and disable them using the ccmake command.
Full disclosure: I'm a developer for the project.
I'm in the middle of setting up an build environment for a c++ game project. Our main requirement is the ability to build not just our game code, but also its dependencies (Ogre3D, Cegui, boost, etc.). Furthermore we would like to be able build on Linux as well as on Windows as our development team consists of members using different operating systems.
Ogre3D uses CMake as its build tool. This is why we based our project on CMake too so far. We can compile perfectly fine once all dependencies are set up manually on each team members system as CMake is able to find the libraries.
The Question is if there is an feasible way to get the dependencies set up automatically. As a Java developer I know of Maven, but what tools do exist in the world of c++?
Update: Thanks for the nice answers and links. Over the next few days I will be trying out some of the tools to see what meets our requirements, starting with CMake. I've indeed had my share with autotools so far and as much as I like the documentation (the autobook is a very good read), I fear autotools are not meant to be used on Windows natively.
Some of you suggested to let some IDE handle the dependency management. We consist of individuals using all possible technologies to code from pure Vim to fully blown Eclipse CDT or Visual Studio. This is where CMake allows use some flexibility with its ability to generate native project files.
In the latest CMake 2.8 version there is the new ExternalProject module.
This allows to download/checkout code, configure and build it as part of your main build tree.
It should also allow to set dependencies.
At my work (medical image processing group) we use CMake to build all our own libraries and applications. We have an in-house tool to track all the dependencies between projects (defined in a XML database). Most of the third party libraries (like Boost, Qt, VTK, ITK etc..) are build once for each system we support (MSWin32, MSWin64, Linux32 etc..) and are commited as zip-files in the version control system. CMake will then extract and configure the correct zip file depending on which system the developer is working on.
I have been using GNU Autotools (Autoconf, Automake, Libtool) for the past couple of months in several projects that I have been involved in and I think it works beautifully. Truth be told it does take a little bit to get used to the syntax, but I have used it successfully on a project that requires the distribution of python scripts, C libraries, and a C++ application. I'll give you some links that helped me out when I first asked a similar question on here.
The GNU Autotools Page provides the best documentation on the system as a whole but it is quite verbose.
Wikipedia has a page which explains how everything works. Autoconf configures the project based upon the platform that you are about to compile on, Automake builds the Makefiles for your project, and Libtool handles libraries.
A Makefile.am example and a configure.ac example should help you get started.
Some more links:
http://www.lrde.epita.fr/~adl/autotools.html
http://www.developingprogrammers.com/index.php/2006/01/05/autotools-tutorial/
http://sources.redhat.com/autobook/
One thing that I am not certain on is any type of Windows wrapper for GNU Autotools. I know you are able to use it inside of Cygwin, but as for actually distributing files and dependencies on Windows platforms you are probably better off using a Windows MSI installer (or something that can package your project inside of Visual Studio).
If you want to distribute dependencies you can set them up under a different subdirectory, for example, libzip, with a specific Makefile.am entry which will build that library. When you perform a make install the library will be installed to the lib folder that the configure script determined it should use.
Good luck!
There are several interesting make replacements that automatically track implicit dependencies (from header files), are cross-platform and can cope with generated files (e.g. shader definitions). Two examples I used to work with are SCons and Jam/BJam.
I don't know of a cross-platform way of getting *make to automatically track dependencies.
The best you can do is use some script that scans source files (or has C++ compiler do that) and finds #includes (conditional compilation makes this tricky) and generates part of makefile.
But you'd need to call this script whenever something might have changed.
The Question is if there is an feasible way to get the dependencies set up automatically.
What do you mean set up?
As you said, CMake will compile everything once the dependencies are on the machines. Are you just looking for a way to package up the dependency source? Once all the source is there, CMake and a build tool (gcc, nmake, MSVS, etc.) is all you need.
Edit: Side note, CMake has the file command which can be used to download files if they are needed: file(DOWNLOAD url file [TIMEOUT timeout] [STATUS status] [LOG log])
Edit 2: CPack is another tool by the CMake guys that can be used to package up files and such for distribution on various platforms. It can create NSIS for Windows and .deb or .tgz files for *nix.
At my place of work (we build embedded systems for power protection) we used CMake to solve the problem. Our setup allows cmake to be run from various locations.
/
CMakeLists.txt "install precompiled dependencies and build project"
project/
CMakeLists.txt "build the project managing dependencies of subsystems"
subsystem1/
CMakeLists.txt "build subsystem 1 assume dependecies are already met"
subsystem2/
CMakeLists.txt "build subsystem 2 assume dependecies are already met"
The trick is to make sure that each CMakeLists.txt file can be called in isolation but that the top level file can still build everything correctly. Technically we don't need the sub CMakeLists.txt files but it makes the developers happy. It would be an absolute pain if we all had to edit one monolithic build file at the root of the project.
I did not set up the system (I helped but it is not my baby). The author said that the boost cmake build system had some really good stuff in it, that help him get the whole thing building smoothly.
On many *nix systems, some kind of package manager or build system is used for this. The most common one for source stuff is GNU Autotools, which I've heard is a source of extreme grief. However, with a few scripts and an online depository for your deps you can set up something similar like so:
In your project Makefile, create a target (optionally with subtargets) that covers your dependencies.
Within the target for each dependency, first check to see if the dep source is in the project (on *nix you can use touch for this, but you could be more thorough)
If the dep is not there, you can use curl, etc to download the dep
In all cases, have the dep targets make a recursive make call (make; make install; make clean; etc) to the Makefile (or other configure script/build file) of the dependency. If the dep is already built and installed, make will return fairly promptly.
There are going to be lots of corner cases that will cause this to break though, depending on the installers for each dep (perhaps the installer is interactive?), but this approach should cover the general idea.
Right now I'm working on a tool able to automatically install all dependencies of a C/C++ app with exact version requirement :
compiler
libs
tools (cmake, autotools)
Right now it works, for my app. (Installing UnitTest++, Boost, Wt, sqlite, cmake all in correct order)
The tool, named «C++ Version Manager» (inspired by the excellent ruby version manager), is coded in bash and hosted on github : https://github.com/Offirmo/cvm
Any advices and suggestions are welcomed.