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I'm learning about static and dynamic libraries. So far I understand why I would need a dynamic library. In case something is changing it's good to plug in a newer version and all the applications will update automatically without even noticing.

a) Great for plugins, b) multiple apps using the same library and c) maintenance when you need to correct errors.

However, why would anyone use a static library? I mean what's the advantage? Does sb have an example so I can understand it better? Is it to make a product proprietary?

EDIT: Due to the confusion in the comments. I understand what a static library is, and I also know the difference between a dynamic library. It was just beyond me why anyone would use a static library instead of just the source itself. I think I'm now starting to understand that a static library offers the following advantages:

a) better code maintenance b) faster compiling times

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possible duplicate of Static linking vs dynamic linking –  dmckee Jun 12 '11 at 17:17
    
@dmckee: I think this question is different. Frank isn't comparing the two linking methods, he's asking what the semantics of static libraries are. –  Billy ONeal Jun 12 '11 at 17:22
    
@Billy: I compared "However, why would anyone use a static library? I mean what's the advantage?" to "Are there any compelling performance reasons to choose static linking over dynamic linking or visa versa". –  dmckee Jun 12 '11 at 17:24
    
@dmckee: Compelling performance are only a narrow range of the possible reasons to choose one or the other. The questions are strongly related, but I don't think they're duplicates. –  Omnifarious Jun 12 '11 at 17:27
    
@Omni: Performance do not only mean "speed". –  dmckee Jun 12 '11 at 17:29
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6 Answers 6

up vote 3 down vote accepted

A static library is basically a ZIP of object files. The only advantage it has over just distributing the object files is that it's a single file that encompasses your whole library. Users can use your headers and the lib to build their applications.

Because it's just a ZIP of object files, anything the compiler does to object files also works with static libraries, for example, dead code elimination and whole program optimization (also called Link-Time Code Generation). The compiler won't include bits of the shared library in the final program that are unused, unlike dynamic libraries.

With some build systems, it makes link seams easier too. E.g. for MSVC++, I'll often have a "production" EXE project, a "testing" EXE project, and put the common stuff in a static library. That way, I don't have to rebuild all the common stuff when I do builds.

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Thanks Billy, I think your answer fits best and you understood what I was actually asking for. –  Frank Vilea Jun 12 '11 at 17:38
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Compilers can do all sorts of additional optimizations with static libraries that they cannot do with dynamic libraries. For example, a compiler can delete unused functions from static libraries. It wouldn't know to do that in a dynamic library. But there are even more advanced optimizations. The compiler can pull code from a static library function into the main program, which will eliminate function calls. Very smart compilers can do even more. The sky is really the limit with static libraries, but dynamic libraries make much of this much harder or impossible.

Probably the more practical reason however, is that static linking is the default for most library compilers so many people just end up using it. To create a dynamic library, you normally have to create an additional file which exposes certain functions. Although the file tends to be relatively simple, if you don't take the time to do it, then your libraries all end up being static.

As mentioned in another post, managing dependencies with static libraries tends to be easier simply because you have everything under your control. You may not know what dll/so is installed on the user's system.

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+1 your answer best addresses OP's question on the motivation for using static libraries. Another key point is versioning and incompatible interfaces. If your program statically links a library, you never have to worry about making sure the user has the same version of the library installed. Once the binary is successfully linked, it will continue working indefinitely regardless of its environment and what other files are present (or which directories they're in, etc.). The down-side of this is that you can't benefit from bug fixes or new features in libraries without relinking your app. –  R.. Jun 12 '11 at 17:37
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There is another difference between static and dynamic libraries which may become important in some situations, I am surprised that nobody mentions that.

  • When static library is linked, the symbols (e.g. function names) are resolved during the linkage (compile) time, so a call to a library function is resolved to the direct call to an address in the final executable.

  • With dynamic library, this happens during the run-time, when the library is loaded into the process space (often during process start-up). The symbols must be mapped into the process's address space. Depending on the number of symbols, which can be surprisingly large, and number of libraries loaded at the start-up, the delay can be quite tangible.

There is this excellent in-depth guide on dynamic libraries on Linux - How To Write Shared Libraries. It is way too detailed for most of us, but even skimming through it gives you many surprising insights. For instance, it says that in release 1.0 of OpenOffice it had to do more than 1.5 million of string comparisons during the launch!

A way to get a feeling of that is to set LD_DEBUG to symbols, and LD_DEBUG_OUTPUT to some file, run a program and look at the file to see the activity that goes on on startup.

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Static libraries good then you want tiny package without any problems with conflicting dll's. Also time to load and initialize libraries reduced a lot with static linking.

But as disadvantage you can notice some size increase of binary.

Static librarys on WIKI

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note: size of the executable + dlls is usually greater than size of executable with static libraries. –  ybungalobill Jun 12 '11 at 17:14
    
you mean file header overhead? –  excanoe Jun 12 '11 at 17:16
    
No -- the compiler will throw out bits of a static library that are not used. Unused bits of a DLL are never thrown out. –  Billy ONeal Jun 12 '11 at 17:19
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If you need a number of small programs, which use only a very small, but sometimes slightly different part of a huge library (it usually happens with large open-source libraries), it might be better to not build a large number of small dynamic libraries, as they will become hard to manage. In this case, it might be a good idea to statically link only the parts you need.

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With dynamic libraries if all the libraries aren't present then the application doesn't run. So if you have a partition that holds your libraries and it becomes unavailable then so does the application. If an application has static libraries then the libraries are always present so there is nothing to prevent the application from working. This generally helps in case you are staring your system in maintenance mode.

On a Solaris system for example, commands that you may need to run in the event that some partitions may not be present are stored under /sbin. sbin is short for static binaries. If a partition is unavailable these apps will still work.

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