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I am new to embedded systems and want to learn more,

I am currently optimizing a software with regards on the footprint for an ARM embedded system, and are wondering, the header files that you include in your source files. Where are they put?

Right now I am just using a software (OVP) to simulate the ARM hardware platform but in real hardware, you have to put the header files somewhere right? Like in gcc have the standard library on the hd. Do we have to insert this library in the embedded machine as well? Space is limited! And is there any way to minimize the size of the library? Thanks!


#include <stdio.h>

#include <stdlib.h>

I am using the cross compiler arm-elf-gcc

Best Regards

Mr Gigu

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Those are not libraries. –  nbt May 31 '11 at 7:02
What are those? –  MrGigu May 31 '11 at 7:03
Those are header files. –  nbt May 31 '11 at 7:05
Oh ok, gotta change that, thanks! –  MrGigu May 31 '11 at 7:05
<stdio.h> etc. need not be real files occupying space on the hard disk (though they usually are). I call them 'headers' (sometimes 'system headers'); and I call 'header files' to the quote variety: #include "foobar.h" –  pmg May 31 '11 at 9:32

2 Answers 2

up vote 10 down vote accepted

You appear to possess a few fundamental misunderstandings about compiled executable code. The following applies to embedded and desktop systems.

Header files are no more than sourcefiles like any other. The difference is that they are inserted into the compilation unit by the pre-processor rather than compiled directly. Also in most cases they contain declarative statements only, and do not generally contribute to the generated code in the sense of executable instructions or stored data.

At runtime none of your source code is required to exist on the target; it is the work of the compiler to generate native executable machine code from your source. It is this machine code that is stored and runs on the target.

A header file is not the same thing as a library. It is merely (generally) the declaration of library content (function prototypes and other symbol declarations such as constants, data, macros, enumerations). The library takes the form of pre-compiled/assembled object code stored in a combined archive. It is the job of the linker to combine the required library code with the object code generated from compilation of your own source. It is this linked executable that is stored and executed on the target, not the original source code.

An exception regarding header files containing declarative code only is when they contain in-line code or executable code in a macro. However such code only occupies space in your application if explicitly called by the application.

When library code is linked, only those library object code components required to resolve references in the application code are linked, not the entire library (unless the entire library is composed of only a single object file).

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Thanks for the explanation! If I want to find more information about this, what should i search for? Linkers and compilers? –  MrGigu May 31 '11 at 9:11
Am I correct here, If I would use the printf function in <stdio.h>, only that function will be compiled into the executable elf file? So if I find other librarys that have a smaller printf function (like diet libc in the other answer)I could copy the c file to the same folder and include it with " " instead of <> ? –  MrGigu May 31 '11 at 11:39
No if you use printf() the object file containing its implementation and those containing any further dependencies will be included. Depending on the granularity and cohesion of the library, that may include stuff you may not need. In some cases the C runtime may be a shared library or DLL (as is the case with MSVCRT.DLL in Windows/VC++ and MinGW), in which case it will have minimal effect on the executable size but will still have a run-time memory footprint. –  Clifford May 31 '11 at 22:09

The library does indeed have to get included in the image that is burned into the embedded system's memory. Usually you tell the linker to strip out unused functions, which goes a long way towards conserving memory. But this memory is the memory your program takes up in flash or whatever you use for non-volatile code storage. It doesn't say anything about how much RAM your program takes at runtime. You can also tell your compiler to optimize for space, and also use different runtime libraries - the ones provided by the vendor are often not as fast or small as they could be.

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My software stops working when putting any optimisation over -O1, the software (a hypervisor) handles alot of context switches and interrupts (with inline assembler), i think the optimisation messes with the memory locations etc. –  MrGigu May 31 '11 at 8:01
Im quite uncertain how you use different runtime libraries, is that something you have to install and specify in the makefile? I use arm-elf-gcc and it uses its own standard library i guess? Also I use windows 7. –  MrGigu May 31 '11 at 8:05

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