mix monotouch and Obj-C or C++ - c++

I got another crazy idea: why do I want to create a static lib in XCode, then create monotouch bindings for it then linking this lib with monotouch project. That would be much easier to have all the sources in a single project...
I'm trying to have Obj-C, or C or even C++ sources right in monotouch project compiled all-together. But apparently I got no luck with that. I can't make C code to compile from monodevelop.
Does anybody tried this approach? what are pros and cons (if it is possible)?

You're right that you can have several projects, in different languages, inside a single MonoDevelop solution.
However you'll still need to create bindings to access non .NET code (e.g. C/C++) and data from the main (C#) project solution.
So having a single solution can be a bit simpler in many cases but it won't be a lot simpler - unless you're using .NET for every projects.
Note: there are now binding solutions templates in MonoDevelop that can make binding non-.NET code simpler. That's more likely yo help you.

Related

How to develop a cross-platform C++ project?

I'm a C++ beginner and I'm starting to develop my first cross-platform C++ project. I need to use platform-specific calls (Win32 and POSIX) so I need to compile frequently both in Windows and Linux.
Whit single-platform projects I'm using, until now, KDevelop in Linux and Visual Studio 2012 in Windows.
How can I use two different IDEs in two different Operating Systems with the same project?
Should I use a single, cross-platform, IDE?
Should I learn CMake (or similar) and configure it to work with both IDEs?
Could/Should I host my code in the web and sync automatically with offline projects?
Alternatives?
Thanks in advance to everyone.
EDIT:
Just for clarification, the project will be a simple server for a scholastic protocol. There will be a client asking for upload/retrieve some files to/from the server.
With scholastic I mean that, for example, I have to use pthreads/win32 threads instead of an higher level C++ threads library.
Maybe - really depends on what you feel most comfortable with. As the project is non-graphical, all the IDE gives you is editing of files and compilation. So you can build the project on one machine with the IDE there, and then move the sources to another machine for compiling there.
I personally would just have two makefiles, one for Linux and one for Widnows. Makes life fairly simple [you could have a "outer" makefile that picks the right one based on some clever method].
Yes, you should find a version control system that works for both Windows and Linux (git, mercurial, subversion, bazaar and several others). That way, not only do you have a central repository [you can use either of your machines as "server" for any of these], but it also allows you to keep track of your changes. Definitely worthwile doing!
There are hundreds of different alternatives. But the simpler you keep it, and the less complicated your tools are, the more time you get to spend on actually programming your project, rather than, for example, figure out why CMake isn't building the way you want it to.
Also, make sure that you separate out all your system-specific code to one file per architecture. That way, it's easy to port to another architecture later, and it makes MOST of your code compile on both systems.
Typically, it's easy to adjust the IDE-specific project/build files to added/moved/deleted source files. Therefore, using a cross-platform IDE isn't that important.
You can do that, I think that CMake can also create project files for some IDEs that can then be used to build the project.
Ahem, if you want to host it online or not is your choice. What you should definitely do is to use some kind of version control. A bug-tracking system is also helpful. If you want to open-source the code anyway, using one of the existing hosting facilities is a clear yes.
Not really.
One comment though: You will have much more trouble making the C++ code portable. Building on top of a toolkit like Qt is a tremendous help. If you want to stay closer to standard C++, at least consider using Boost for stuff like threads, smart pointers, filesystem access. Good luck!
My recent experience suggest to take a look at Qt. The IDE (QtCreator) it's very good, and available on all major platforms.
I've used for a fairly simple project, that uses fairly complex components, like OpenCV and ZBar. I develop on Linux, copy the source to Windows, and recompile.
I had some trouble to setup OpenCV on both platforms, so I can't say it's super easy, but it's working. Since you already know KDevelop, you should already know Qt.
I also put much value in recent trend that see Qt5 as the platform for Ubuntu on smartphones. I really hope to see this developing.
HTH
How can I use two different IDEs in two different Operating Systems with the same project?
Should I use a single, cross-platform, IDE?
No. I think this is a case of asking the wrong question. To make a cross-platform project, what matters is your build scripts and the system-neutral nature of your code. Sometimes it might help to have project files for your preferred IDE, but maintaining multiple project files for multiple IDEs will only make things more difficult and complex for you. Instead, you should focus on finding a build system that minimizes the amount of time you spend on project maintenance.
For that, CMake and PreMake seem to be two of the best tools to make that happen.
There are dozens of alternatives (like SCons, Cook, kbuild, Jam and Boost Jam, and many others), but since CMake and PreMake both generate project files and build scripts, they might be the best solutions.
Your mileage will vary.
Could/Should I host my code in the web and sync automatically with offline projects?
You should have robust source control that works everywhere you do. Git and Mercurial seem to work best if you use some kind of "cloud" hosting like Github or BitBucket, but they by no means require it. Depending on your work environment and team size, you may prefer Subversion or PerForce or something else, but that's up to you and your team.
it will help, you will quite likely need to debug on many platforms... Qt Creator, Netbeans and Eclipse come to mind.
Yes. cmake, or qmake for Qt maybe
Not technical question. Just use version control! github and gitorious are easy choices for open source project though.
Qt is a no-brainer choice for cross-platform C++ GUI app, and also decent choice for network app with no GUI.

Getting started with a cross platform C++ project

I am starting a c++ project which I would like to compile equally well in Eclipse (Linux) and vs2010 from the same repository and could use some help getting started. While many of the aspects can individually be Google'd, I was hoping for advice on how to approach the problem on a whole.
For example, where to keep the library sources, how to structure the make file, and how to integrate googletest (finding a novice tutorial on googletest alone is hard). A link to a tutorial that addresses these aspects would be great, or a series of tutorials that together could help.
My background is in C# and I'm trying to maintain the "cleanness" and organization of my VS projects.
I have done cross platform projects that used the "native" build systems on both platforms (vsproj files on windows and makefiles on linux), but it was definitely a pain to maintain both project files. So, yes, I would agree with the other suggestions that you should try to start with a solid cross platform build utility. CMake or possibly Boost build seem like decent options - likely there are many others.
When it comes to 3rd party libraries, you'll want to stick to stuff that is solidly tested cross platform. Boost is the best general purpose library for c++ (yes, you see it mentioned here in just about every c++ thread...but that's because it really is a nice collection of useful stuff). As for XML, HTTP, image libs, UI - there are all good cross platform options - just look around or ask here if you have specific requirements. Whatever you do, don't use some library from CodeProject or other MS oriented site that has only been tested with Visual Studio 6 - that will just lead to misery. Most of the GNU libs build on windows these days, so you should be reasonably safe with that stuff.
Although it will be tempting, try to minimize the platform#ifdefs in your code - prefer instead to abstract any platform specific stuff in a library wherever possible.
Good luck!
You'll want to look at cmake.
One thing that I could suggest if you're going strongly cross-platform and you want everything to be as "clean" as possible: Centralize your build system with a modern cross-platform build tool like Scons. It's written in Python, it's quite concise and powerful, and it works everywhere.
Or, if you're a fan of Eclipse, just install Eclipse on both Windows and GNU/Linux. As I mentioned above, it's cross-platform, and you can get it working for compilers on all sorts of different systems.

Building/Running Lua from Visual Studio

I'm a total noob when it comes to linking and building with Visual Studio. I would like to integrate Lua into my C++ console application.
Can someone give a step by step on how to do this from getting the Lua dependencies from lua.org, to actually running a "Hello World from Lua" in VS, and all the steps in between.
Finding something like this online has been very difficult since most require prerequisite knowledge of building Lua and such.
Thanks :)
Start with the Lua for Windows package. It will get you a self-contained batteries included Lua installation. Lua for Windows is not an official distribution, but it is well respected by the Lua user community. You can use its lua.exe to gain experience with the language in a Windows environment, and its rich collection of tested extension modules is also available for use.
If you add its include and lib folders to your VS project configuration, you should be able to compile and link against Lua in short order.
One possible complication is that the LfW distribution is built against VC8's C runtime library. If that becomes a problem, then you can either compile Lua yourself as part of your Solution, or get a known good DLL that matches your specific version of Visual Studio from the Lua Binaries project.
Do remember that if you are using one of the distributed DLLs, it will have been compiled as C, and not C++. That means that you must wrap any references to the Lua include files in extern "C" {...} or you will have problems with linkage.
It really helps to have some experience with VS project configuration and building. In particular, experience with mixing C and C++ in a VS project is very helpful.
I heartily recommend following the advice already given about learning C and C++ and mixing the two together. Once you have that under your belt, you may want to check out LuaBind or LuaPlus for connecting C++ and Lua. You can do it manually (and you probably should, at first, to understand what's going on under the hood), but it's more efficient and cleaner, code-wise, to use one of those binding libraries. For debugging purposes, Decoda is a good choice; it can attach to processes started in VS which contain Lua code you want to check.

Are there any simple, stupid, module based, cross-platform, c++ projects that I can check out of a repository?

I'm looking for one just to get a general idea of how a standard C++ project should be properly setup.
(If that's possible... :-p)
Here are my requirements for this project:
module-based (has libraries/modules that compile into a main program module)
compiles cross-platform
I'd like to do this so that I can get a hold on the basics of how a good C++ project is setup, and so that I can test out Premake.
http://code.google.com/p/csvfix/ - cross platform, simple make file, code includes library and executable in a single zip.
FW4SPL is a component-oriented architecture with the notion of role-based programming. FW4SPL consists of a set of cross-platform C++ libraries. Not yet simple, but with a properly setup.

Simultaneous C++ development on Linux and Windows

We have a handful of developers working on a non-commercial (read: just for fun)
cross-platform C++ project. We've already identified all the cross-platform libraries we'll need. However, some of our developers prefer to use Microsoft Visual C++ 2008, others prefer to code in Emacs on GNU/Linux. We're wondering if it is possible for all of us to work more or less simultaneously out of both environments, from the same code repository. Ultimately we want the project to compile cleanly on both platforms from the start.
Any of our developers are happily willing to switch over to the other environment if this is not possible. We all use both Linux and Windows on a regular basis and enjoy both, so this isn't a question of trying to educate one set devs about the virtues of the other platform. This is about each of us being able to develop in the environment we enjoy most yet still collaborate on a fun project.
Any suggestions or experiences to share?
Use CMake to manage your build files.
This will let you setup a single repository, with one set of text files in it. Each dev can then run the appropriate cmake scripts to build the correct build environment for their system (Visual Studio 2008/2005/GNU C++ build scripts/etc).
There are many advantages here:
Each dev can use their own build environment
Dependencies can be handled very cleanly, including platform specific deps.
Builds can be out of source, which helps prevent accidentally committing inappropriate files
Easy migration to new dev. environments (ie: when VS 2010 is released, some devs can migrate there just by rebuilding their build folder)
I've done it and seen it done without too many problems.
You'll want to try an isolate the code that is different for the different platforms. Also, you'll want to think about your directory structure. Something like
project/src <- .cc and .h files
project/src/linux|win <- code that is specific to one platform or the other
project/linux <- make files and other project related stuff
project/win <- .sln and .csproj files
Basically you just want to be really clear what is specific to each system and what is common.
Also, unit tests are going to be really important since there may be minor difference and you want to make it easy for the windows guys to run some tests to make sure the linux code works as expected and the other way around.
as mentioned in previous posts, Qt is a very easy method to do real simultaneous multi-platform development - independent of your IDE and with many different compilers (even for Symbian, ARM, Windows CE/Mobile...).
In my last and current company I work in mixed Linux- and Windows-developer teams, who work together using Subversion and Qt (which has a very easy and powerful build-system "QMake", which hides all the different platform/compiler specific build environments - you just have to write one build file for all platforms - so easy!).
And: Qt contains nearly everything you need:
simple string handling, with easy translation support and easy string conversion (utf8, utf16, asci...)
simple classes for file i/o, images, networking etc.
comfortable gui classes
graphical designer for the gui layout/design
graphical translation tool to create dynamic translations for your apps (you can run one binary with different selectable languages - even cyrillic, asian fonts...)
integrated testing framework (unit tests)
So Qt is a full featured and very reliable environment - I use it for 10 years.
And: Qt integrates seamlessly into IDEs like VC++, Eclipse or provides its own IDE "QtCreator".
see: http://www.trolltech.com + http://doc.trolltech.com
Best Regards,
Chris
I had such experience working in Acronis. We had the same codebase used to build binaries (fully packaged installers, actually) targetting Win32/64, Linux, and OS X (and a bunch of other more exotic platforms, such as EFI), with everyone working in their IDE of choice. The trick here is to avoid compiler- and IDE-specific solutions, and make your project fully buildable from clean cross-platform make files. Note that you can perfectly well use any make system together with VC++, so it isn't a problem (we used Watcom make for historical reasons, but I wouldn't recommend it).
One other trick you can do is add a make script that automatically produces project files from the input lists in your makefiles, for all IDEs you use (e.g. VS and Eclipse CDT). That way, every developer generates that stuff for himself, and then opens those projects in IDE to edit/build/debug, but the source repository only has makefiles in it.
Ensuring that code is compilable for everyone can be a problem, mostly because VC++ is generally more lax in applying the rules than g++ (for example, it will let you bind an rvalue to a non-const reference, albeit with a warning). If you compile with treat warnings as errors, and highest warning levels (with perhaps a few hand-picked warnings disabled), you will mostly avoid this. Having contiguous rolling build set up is another way to catch those early. One other approach we've used in Acronis is to have the Windows build environment have Cygwin-based cross-compilation tools in it, so any Windows dev could do a build targeting Linux (with the same g++ version and all) from his box, and see if that fails, to verify that his changes will compile in g++.
I personally use cmake/mingw32/Qt4 for all my C++ needs.
QtCreator is a crossplatform IDE which is somewhat optimized for qt4 programming.
We're working on a cross-platform project as well. We're using Emacs to code, SCons to build and Visual Studio 2008 to debug. It's my 1st time using Emacs + SCons and I must say that It's very very nifty once you figure out how does the SConstruct and SConscripts work.
I'm late to this question, and there are a lot of good answers here, but I haven't seen anyone enumerate all the issues I've run into (most of my work in C++ is and has been cross-platform), so:
Cross-platform compilation. Everyone has covered this quite well. CMake, and SCons are useful among others.
Platform differences. These aren't actually limited to Linux v Windows. Different versions of Windows have plenty of subtle issues. If you ever want to jump from Linux to OS X you'll find the same. So do processor architecture differences: 32 v 64 bit doesn't usually matter - until it does and things break on you very badly. This is something C++ programmers face more than in most other languages, whose implementations are working hard to hide this sort of thing from programmers.
Test everything. Alan mentions unit tests but let me emphasize them. The real problem with cross-platform programming is not code that won't compile: it's code that compiles just fine and does the wrong thing in subtle cases. Unit tests matter here much more than they do when you are working on a single platform.
Use portable libraries whenever possible. Getting this right is full of subtle gotchas. It's better to take advantage of someone else's work than to roll your own. Qt is useful here, as are NSPR and APR (the latter two are C, but wrappers exist if you don't want to mess with them directly.) These are the libraries that explicitly target platform abstraction as a goal, but most other libraries you use should be checked for this. Be reasonably wary of cool libraries that don't have a track record of portability. I'm not saying don't use them: just test first. Doing this right saves you enormous effort on testing.
Pavel mentions continual integration. This may not matter if there are only a handful of you. But I've found that the number of platforms you get when you consider all of the OS, OS variant, and processor differences means that without some form of continuous build-test cycle you will always be missing some edge case. If your project gets bigger than a handful of people consider doing this.
Version control. The most obvious issue is handling newlines and filename case-sensitivity but there are others. Most of the well-known open source VCSes do this right by now, but it's notable that it usually takes them several years to find all their bugs related to portability. As an example Mercurial, which has had portability as one of its selling points, has a series of fixes spanning three or four releases dealing with Windows filenames in uncommon situations. Make sure you can check out what the others check in early on.
Scripts. Use Perl/Python/Ruby (or something like them) for your scripting. Trying to keep Linux shell and Windows batch scripts in sync is painfully tedious.
Despite all of the above: overall cross-platform is quite doable, and there's no real reason to avoid it. My experience is that the problems tend to crop up sporadically, but when they do they take more than there fair share of time. If you've been programming a while though you won't find that unusual.
The issue is not really editing the C++ source files, but the build process itself. VS doesn't use the same Makefile architecture as Linux development typically does. A radical suggestion, but both groups could actually use the same C++ IDE and build process - see Code::Blocks for more info.
This is possible (I do that to earn my daily money :-) ).
But you have to keep in mind the differences in the OS supplied libraries which could be very annoying.
Two good options to get around that are BOOST and QT.
Both supply you with platform independent functions of useful stuff that isn't handled by the C lib and the STL.
I've done this in two ways:
Each platform has its own build system. Whenever someone changes something (adding a source file), they either adapt the other platform too, or they mail a notification and someone more familiar with the other platform adapts it accordingly.
Use CMake.
I can't say I really liked CMake, but a cross-platform tool certainly has its advantages.
Generally, using different compilers to compile your code from the very first few lines is always a good idea, as it helps improving code quality.
Another vote for cmake.
One thing to watch out for, filenames are cased but not case sensitive on Windows. They are case sensitive on most unix filesystems.
This is generally a problem with #include
eg. given a file FooBar.h
#include "foobar.h" // works on Windows, fails on Linux.
I do agree with everyone here that has suggested cmake for cross platform development in C++. It is an excellent tool.
Another thing I would suggest is to use eclipse CDT as development environment. It works in any place where you can run Java an gcc and that unifies your development environment.
I think that was Alan Jackson who gave emphasis to the unit test. For doing so yo would need some cross platform unit test libraries. I read this post time ago regarding C++ unit test frameworks. It is a bit outdated but thoughtful. The one missing that also works in both platforms is googletest.
Finally if you want to run those test automatically in both platforms cmake has another tool called ctest that is very good for doing so.
Check out premake... It is pretty similar to CMake but written using lua.
I have used this on a number of development projects and find it easy to learn and integrate into existing company and project structures.
Give it a try!
http://industriousone.com/premake