how to generate makefile for a C source file - makefile

I've never tried to do this before so this is actually my first time to cross compile a C program.
I have a main.c code file and need to create a makefile for it so i can cross compile this file. This c file has a dependancy curl library. When I compile it in xcode by adding a library, it builds fine. However,i still need to create a makefile for the cross compiling. Can I generate that makefile with xcode? If so, can you please provide some step to step guidance or do i need to use another tool to generate it?

Alternative approach
You can use CMake for this task. First of all take a look at this tutorial, that explains CMake basics. Then take a look at toolchain documentation.
Take a look at this post too.
Btw OpenWrt has also support for CMake based projects, just look at uci and libubox packages.

Related

How to compile srlua (or a link to the binaries)

Related:
How to compile srlua?
How do I Make an executable Lua script using srlua?
The first link is the exact question I am asking here. However, the sole answer is unsatisfactory as it assumes multiple things, namely that the OP is already using Cmake (a fact disproved by the OP's comment on the answer). The second link seems to already be most of the way through a tutorial, and while a link to precompiled binaries for both srlua.exe and srglue.exe are provided, the link no longer contains binaries but instead the source.
I have found several other threads on various websites all asking the same thing, but all of them either assume that you essentially already know how, or explain nothing (many have potentially helpful links, but they are old and no longer work).
I have already tried to compile srlua, and got a srglue.exe, but when I tried srlua.c I ended up with a list of undefined references (such as "lua_type" or "lua_getfield").
lua_getfield, lua_type, lua_settop, lua_getfield, lua_type, lua_settop, lua_pushstring, lua_pushinteger, lua_call, lua_pushfstring, lua_load, lua_tolstring, lua_tointeger, lua_touserdata, luaL_openlibs, lua_createtable, lua_pushstring, lua_rawseti, lua_setfield, luaL_checkstack, lua_pushstring, lua_call, lua_tolstring, luaL_callmeta, lua_type, lua_type, lua_typename, lua_pushfstring, luaL_newstate, lua_pushcclosure, lua_pushcclosure, lua_pushinteger, lua_pushlightuserdata, lua_pcall, lua_tolstring, lua_close
My question is this:
How does one use a C compiler (I know the basics of gcc) to compile srlua specifically? Or, if anyone has a functioning link to either precompiled binaries or a tool to compile the binaries, could they share it?
Important: I am on Windows. Thus, I cannot just use make. I must actually compile the .c files to .exe files. I am asking how. If you simply provide links to threads with the aforementioned problems, you are not helping. If you give an answer that assumes in-depth prior knowledge of a particular tool that does not have good documentation, you are not being helpful. If you tell me tools to use, but not the specific procedure for compiling srlua, you are not being helpful. If there is a better place for this, tell me and I can move it there.
I don't know any Windows pre-compiled binaries for srLua.
To compile srLua, you should first install the Mingw compiler to use GCC as a C compiler : you can install TDM-GCC (https://jmeubank.github.io/tdm-gcc) or http://winlibs.com.
You can then open a Console prompt. Enter the "gcc" command to be sure that the compiler is working (and that the PATH is correctly set).
Then go to the directory you extracted the srLua source files and type the command :
mingw32-make
Cross your fingers and it should compile everything :)
When linking, you should include the Lua libraries with the -l Switch : -llua54 for Lua 5.4 library for examples.
I found this already compiled release on webarchive, it's kinda old but works:
https://web.archive.org/web/20130721014948/http://www.soongsoft.com/lhf/lua/5.1/srlua.tgz

Library doesn't properly link at command 'make'

I am trying to use some open-source CFD code, and it uses PETSC and some other libraries, so I installed them. But when I try to compile program useing 'make', it seems like libraries are not properly linked with makefile
It seems like petsc isn't properly linked, but I can't know why...
The problem is that PETSc depends on some more libraries (X11) than the CFD package counted on. It should have a proper configure that figures these out. However, you can get the link line you need using
cd PETSC_DIR; make getlinklibs
which you can then put in LIBFLAG.

Compile not optimized Libgcc for ARM

Good morning,
I need to compile libgcc from scratch without deploying the ARM optimized version which is defined in ieee754-sf.s in the ARM back-end.
Does anyone knows how to configure GCC for excluding ieee754-sf.s ( in libgcc/config/arm ) to compile from scratch libgcc, in particular compiling vanilla floating-point soft-fp emulation which is in libgcc/spft-fp ?
Thanks
I dont know a configure command which does what you want. However if you want to do these modifications, you will need to modify lib1funcs.S to delete the references to the two files. you will need also to modify the t files (t-elf and t-arm at least) . gcc/config/arm/elf.h sould probably be modified too.
You can take a look at microblaze config directory. it shows a minimalist example

How to organize C source file previously compiled by GCC Make and build them into an Xcode bundle? I have a Duplicate Symbol _main Error

How to build a .bundle from source code?
This might sound like a simple problem but it has been hurdling me for a week...
Here is my problem:
I have a bunch of .c and .h files that are organized in a folder and its sub folders. The source code was written and compiled with gcc make and tested by many other make tools. The source code has some utilities and command line tools and it has more code that serve as library for those utilities and tools. It is the files that serve as libraries that I want to reuse. (By library I don't mean static library or something, I just mean that some .c and .h files in certain subfolders provide functions that can be called by some other .c files. I want to be able to call those functions, too)
Yet my problem is more complex than that: I need to build those .c and .h into a bundle to reuse it. I am not writing my application in C; I am developing in Unity and Unity can only take in .bundle files on Mac OS.
Here is my goal:
Organize the source code folder in a proper way so that I can build them into a bundle in Xcode 4.
Here is where I got stuck:
When building the project I got the following error:
Duplicate symbol _main in
/Users/zeningqu/Library/Developer/Xcode/DerivedData/ccn-cfygrtkrshubpofnfxalwimtyniq/Build/Intermediates/ccn.build/Debug/ccn.build/Objects-normal/i386/ccndsmoketest.o
and
/Users/zeningqu/Library/Developer/Xcode/DerivedData/ccn-cfygrtkrshubpofnfxalwimtyniq/Build/Intermediates/ccn.build/Debug/ccn.build/Objects-normal/i386/ccnd_main.o
for architecture i386
I can relate to this error because I can find lots of main entries in the source code. Most of them are test utilities.
Here is what I tried:
I tried removing all those utility .c files but with no luck. The error is still there. I delete and delete until some files cannot find the definition of the function they are calling. So I had to stop there.
Though I wasn't able to build a bundle I was able to build a C/C++ static library (with an .a extension). After I got the .a file I tried to put it into another Xcode project and tried to build it into a bundle. I could build a bundle in that way, but then I had problem accessing the content of the bundle. How do I call functions defined in a .a static library if that library is hidden in a bundle? I read about Apple's documentation which says:
Note: Some Xcode targets (such as shell tools and static libraries) do
not result in the creation of a bundle or package. This is normal and
there is no need to create bundles specifically for these target
types. The resulting binaries generated for those targets are intended
to be used as is.
(quoted from: https://developer.apple.com/library/mac/#documentation/CoreFoundation/Conceptual/CFBundles/AboutBundles/AboutBundles.html#//apple_ref/doc/uid/10000123i-CH100-SW1)
Here is what I thought about:
I thought about replacing all main with something like main_sth. But the source code was not written by me so I didn't want to modify it. (It just doesn't feel like a proper way of doing things to me...)
I learnt that Xcode has gcc compiler built in. So I guess if gcc can make it, so can Xcode? It's just a wild guess - I am not familiar with Xcode and gcc.
Here is a summary of my questions:
Is there a way to properly organize a pile of code previously compiled and made by gcc make so that they can be built into an Xcode bundle?
Is it meaningful to put a .a library in an Xcode project and build it into a bundle? If it is meaningful, how do I call functions defined in .a after it is built into a bundle?
Is it proper to just replace all main() entries with something else?
Alright I think I have figured out at least one solution to the problem.
The duplicate main error was caused by a bunch of main entries in my source code. When the code was compiled by gcc make, I guess the author defined a sort of compilation order so that duplicate mains won't be an issue. (If you know how to do this, please let me know. I barely know make tools.) But when I just add the entire source code folder into my Xcode project, of course Xcode would complain during linking...
As I was unwilling to modify the source code (because the source code library is not developed by me), I decided to use another strategy to walk around this problem.
If your duplicate main error was reported from your own code, you can stop reading here. But if you are like me, with a bunch of gcc compiled source code and badly need a bundle yet don't know what to do, I may be able to help.
Okay here is what I did:
I set up an empty workspace.
I built a C/C++ static library project.
Import my entire source code folder into the static library project.
Set some header search path for the static library project.
Build the static library project. (Now I have a .a library which I could link against)
I set up another project, with a bundle target.
At the bundle project -> Build Phases -> Link Binary with Libraries, add the .a library that I just built.
At the bundle project -> edit scheme -> Build, add the static library project to the scheme and move it up the list so that it is built prior to my bundle project.
Then add .h files of my library project to my bundle project as references.
After that, add a .c file in my bundle project that basically functions as a wrapper. I picked a function that I want to call in Unity, wrote a wrapper function in the new .c file, and was able to build the bundle.
After several trial and error, I was able to import the bundle into Unity and was able to call the test function from Unity.
I was really excited about this! Though it's not completed yet I think this gives me hope and I am confident I can use the source code now! And the best thing about this solution is that I don't have to modify the library code developed by others. Whenever they update their code, I just update my .a library and that's it!
Though I have listed 11 steps I still feel that there are lots of details that I missed. So here are my references:
I followed this tutorial to build my source code into a static library: http://www.ccnx.org/?post_type=incsub_wiki&p=1315
I followed this blog to link static library against my bundle code and twist build phases and search headers: http://blog.carbonfive.com/2011/04/04/using-open-source-static-libraries-in-xcode-4/
I followed this doc to import my bundle to Unity3D Pro as a plugin: http://unity3d.com/support/documentation/Manual/Plugins.html
I strongly recommend the second reference because that's what solved my problem!
Though the problem is almost solved there are still a few things that I haven't figured out:
I don't know if a wrapper function is at all necessary. I will try this out tomorrow and come back to update.
-- I am coming back to update: the wrapper function is NOT necessary. Just make sure you have all the headers in your bundle project and you will be able to use all the data structures and call functions defined in your headers.
I haven't used NSBundle class though I read a few docs about it. Previously I was thinking about using that class to access my .a library encapsulated in my bundle, but as I found the solution I wrote above, I didn't try the class out.
Lastly, if you have better solution, please don't hesitate to let me know!
I tried to follow the steps in the accepted answer, but had no luck. In the end, I realised step 10 needed to be modified slightly:
Create a dummy.c under (.bundle) project and the dummy.c can just be totally empty.
Remove the setting for the library you want to link inside Link Binary With Libraries
Instead use -Wl,-force_load,$(CONFIGURATION_BUILD_DIR)/libYourLib.a or -all_load to Other Linker Flags
PS: And also can use sub-project instead of workspace. and use Target Dependencies instead of Edit Scheme to achieve the same effect.

library examples build in eclipse

I have C project of a library (using CDT). Configurations for both static and dynamic linking for several platforms. Several examples of the library usage is also included in the project. What is the best way to build these examples with the library? If I would like to build both the library and examples (linking the library just built) in one configuration?
I suppose I have to use custom makefile. Do I have to create makefile for the whole project (several of them, one for each platform), or is there any way how to include examples makefile to the automatic one?
Each example has only one source file, so the only things I need to do in my makefile are to determine which compiler is used, add some flags and link with the library which was built (I would include the make examples command as the post-build step).
As I didn't find any solution for this, I use custom makefile for the whole build. I also found a nice advice somewhere: if you want advanced build functions, use advanced build system.

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