One advantage of weak typing(say C++), Type conversions can take advantage of certain features of type hierarchies, like programming on interface. With strongly typed, static typed languages, no type conversion, so no chance to programming on interface
@David The correct way to write code is not to do it, if you need directories etc, use a library like boost::filesystem
Also virtual unique_ptr<Directory> parent() is weird, because this means the child completely owns the parent
I would just return pointers, if you really actually need the parent
Also get rid of pointers and virtual functions (this isn't 90s java), you can have std::vectors<FileSystem_Object> where FileSyste_Object has a member called if_folder, or even better "flags" (for other info, for example)
This is a box:
it has a volume of about one cubic meter, so it can only store objects that have total volume of one cubic meter. And it definitely can't store two identical boxes as itself. Note that each one of these two boxes would also need to contain two boxes like it, and so on, and so on...
^ about storing the values directly
Anonymous
2:38 PM
i.e. variant<nothing?> ASTNode; struct NodeUsingASTNode { ASTNode lhs; ... }; variant<NodeUsingASTNode> ASTNode; I'll look at this question
Spoiling the fun with an answer you can't use anyway if it's homework:
A minimal implementation with Boost Spirit Qi:
#include <boost/spirit/include/qi.hpp>
namespace qi = boost::spirit::qi;
typedef boost::make_recursive_variant<
std::vector<boost::recursive_variant_>,
std::string>::t...
Actually boost::variant is a perfect fit for recursive data structures, very common in parsing
to elaborate on overflow protection: if INITIAL_LIST_SIZE is too big, it will overflow and you'll get a much smaller value passed to malloc (let's say M), the malloc will return a memory block of size M, but the code assumes it's INITIAL_LIST_SIZE, which will result in buffer overflow