I am working on a factory that will have types added to them, however, if the class is not explicitly instiated in the .exe that is exectured (compile-time), then the type is not added to the factory. This is due to the fact that the static call is some how not being made. Does anyone have any suggestions on how to fix this? Below is five very small files that I am putting into a lib, then an .exe will call this lib. If there is any suggestions on how I can get this to work, or maybe a better design pattern, please let me know. Here is basically what I am looking for
1) A factory that can take in types
2) Auto registration to go in the classes .cpp file, any and all registration code should go in the class .cpp (for the example below, RandomClass.cpp) a开发者_运维百科nd no other files.
BaseClass.h : http://codepad.org/zGRZvIZf
RandomClass.h : http://codepad.org/rqIZ1atp
RandomClass.cpp : http://codepad.org/WqnQDWQd
TemplateFactory.h : http://codepad.org/94YfusgC
TemplateFactory.cpp : http://codepad.org/Hc2tSfzZ
When you are linking with a static library, you are in fact extracting from it the object files which provide symbols which are currently used but not defined. In the pattern that you are using, there is probably no undefined symbols provided by the object file which contains the static variable which triggers registration.
Solutions:
- use explicit registration
- have somehow an undefined symbol provided by the compilation unit
- use the linker arguments to add your static variables as a undefined symbols
- something useful, but this is often not natural
- a dummy one, well it is not natural if it is provided by the main program, as a linker argument it main be easier than using the mangled name of the static variable
- use a linker argument stating that all the objects of a library have to be included
- dynamic libraries are fully imported, thus don't have that problem
As a general rule of thumb, an application do not include static or global variables from a library unless they are implicitly or explicitly used by the application.
There are hundred different ways this can be refactored. One method could be to place the static variable inside function, and make sure the function is called.
To expand on one of @AProgrammer's excellent suggestions, here is a portable way to guarantee the calling program will reference at least one symbol from the library.
In the library code declare a global function that returns an int
.
int make_sure_compilation_unit_referenced() { return 0; }
Then in the header for the library declare a static
variable that is initialized by calling the global function:
extern int make_sure_compilation_unit_referenced();
static int never_actually_used = make_sure_compilation_unit_referenced();
Every compilation unit that includes the header will have a static variable that needs to be initialized by calling a (useless) function in the library.
This is made a little cleaner if your library has its own namespace encapsulating both of the definitions, then there's less chance of name collisions between the bogus function in your library with other libraries, or of the static variable with other variables in the compilation unit(s) that include the header.
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