It's been quite some time, I have been programming in C/C++, but some areas still elude me. Perhaps I haven't been reading from well written and authoritative material.
(1) In Linux/Unix, is there a limit on how large user programs can be? Maximum size of stack a program can have? Max amount of memory in a heap a user program can use?
(2) I understand that a C executable has data section, code section & stack section. If the program is getting into many recursive calls, it would need a large amount of stack. Is this stack of predefined size or will it grow as recursion increases. In case of growth, must the address space of program also be dynamically increased? If so, won't that slow down the program?
(3) Similarly, when memory from heap is allocated to program at runtime when the program mallocs, that area of heap would need to be added to address space of program? Thus in this case also, the page table of program needs to be updated. Is my understanding correct?
(4) Why is it that 2 files (which I intend to combine to form single executable) can't have a global variable of same name. It would help to throw some light on what the object files look like.
I am reading ISO C99 standard from http://www.open-std.org/jtc1/sc22/wg...docs/n1256.pdf. It says on page 42:
6.2.2 Linkages of identiﬁers 1 An identiﬁer declared in different scopes or in the same scope more than once can be made to refer to the same object or function by a process called linkage.There are three kinds of linkage: external, internal, and none.
2 In the set of translation units and libraries that constitutes an entire program, each declaration of a particular identiﬁer with external linkage denotes the same object or function. Within one translation unit, each declaration of an identiﬁer with internal linkage denotes the same object or function. Each declaration of an identiﬁer with no linkage denotes a unique entity.
3 If the declaration of a ﬁle scope identiﬁer for an object or a function contains the storage-class speciﬁer static,the identiﬁer has internal linkage.
4 For an identiﬁer declared with the storage-class speciﬁer extern in a scope in which a prior declaration of that identiﬁer is visible,if the prior declaration speciﬁes internal or external linkage, the linkage of the identiﬁer at the later declaration is the same as the linkage speciﬁed at the prior declaration. If no prior declaration is visible, or if the prior declaration speciﬁes no linkage, then the identiﬁer has external linkage.
5 If the declaration of an identiﬁer for a function has no storage-class speciﬁer,its linkage is determined exactly as if it were declared with the storage-class speciﬁer extern.If the declaration of an identiﬁer for an object has ﬁle scope and no storage-class speciﬁer, its linkage is external.
After reading this it looks that if I declare a variable like say int a in 2 source files. then both have external linkage as per rule 5 and 4. and then as per rule 2, both should refer to the same object. Then why does the compiler create problem. Where in the standard it is hinted that we can't declare like this in 2 source files and this should throw compilation error.