Talk:Trait
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+ | Right, now the question is how to generify this - e.g. turn into [[C++]] template? I have an unfinished prototype and compared to [[Java]] it feels a bit ''upside down''. Interesting clash of cultures. | ||
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+ | --[[User:JaroslavTulach|JaroslavTulach]] 08:26, 12 September 2012 (UTC) |
Revision as of 08:26, 12 September 2012
Comments on Trait <comments />
Miles Elam said ...
I am primarily interested in properly typing the multiple class encapsulation case. E.g. having prev/next field in the item class and manipulating them in only by the list. Moreover I'd like to write this (and type this) in a generic way. Looks like it will be possible to do it in C++, but the solution will definitely not be like in Java/Scala - rather upside-down...
--JaroslavTulach 22:25, 5 September 2012 (UTC)
jtulach said ...
The article is more about STL overhead. I personally don't like and don't use STL. I think following C++ implementation is as fast as implementation in C.
class ll_item;
class llist {
public: void add(ll_item& p); void remove(ll_item& p);
llist(void); ~llist();
};
class ll_item {
friend llist; private: ll_item* next; ll_item* prev;
};
class person_item : public ll_item {
protected: int age; const char* name;
public: person_item(int age, const char* name);
};
class animal_item : public ll_item {
protected: const char* name;
public: animal_item(const char* name);
};
int main(int argc, char* argv[]) {
person_item a(10, "Ben"); person_item b(20, "Nora"); person_item c(30, "John");
animal_item x("Fifi"); animal_item y("Bobika"); animal_item z("Bill");
llist l; l.add(b); l.add(c); l.add(a); l.add(x); l.add(y); l.add(z);
}
--jtulach 21:07, 11 September 2012 (CEST)
Right, now the question is how to generify this - e.g. turn into C++ template? I have an unfinished prototype and compared to Java it feels a bit upside down. Interesting clash of cultures.
--JaroslavTulach 08:26, 12 September 2012 (UTC)
Yes, this is indeed possible in C++ and is, in fact, used extensively in the C++ standard library (aka STL). For a prime example, look no further than std::string or the various pluggable memory allocators. The example given in the article appears to these eyes as one of a C programmer trying to make C++ do things like C and failing. To be more precise, if one is accessing people objects by iterator, why would a raw pointer to a person need to be manipulated in this way? In addition, what happens if the object must be accessed in multiple ways, e.g., exists in both a normal list and a sorted list (or multiple sorted lists). The C method falls down as there is no single pair of *next and *prev but rather multiple.
Don't get me wrong, C definitely has its uses. Its relative simplicity for one. However, C++'s generic algorithms and data structures should not be discarded so lightly.
--Miles Elam 20:26, 4 September 2012 (CEST)