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#include "funcs.hpp"
#include "../level-0/errors.hpp"
#include "../level-0/memorystore.hpp"
#include "concepts.hpp"
#include <unordered_map>
namespace intellect {
namespace level1 {
using namespace concepts;
// ensure name link and backing structure are created prior to first use
static auto & namestruct()
{
static struct name_t
{
std::unordered_map<std::string,ref,std::hash<std::string>,std::equal_to<std::string>> conceptsByName;
ref nameref;
name_t()
: nameref(level0::alloc())
{
level0::ref namestr = alloc((std::string)("name"));
nameref.set(nameref, namestr);
conceptsByName.emplace(namestr.val<std::string>(), nameref);
}
} namestruct;
return namestruct;
}
concept* getnamed(std::string const & name)
{
auto & ns = namestruct();
auto res = ns.conceptsByName.find(name);
if (res != ns.conceptsByName.end()) {
return res->second;
} else {
level1::ref con = level0::alloc();
level0::ref namestr = level0::alloc(name);
ns.conceptsByName.emplace(namestr.val<std::string>(), con);
con.set(ns.nameref, namestr);
return con.ptr();
}
}
std::string& getname(concept* r)
{
try {
return r->vget<std::string>(namestruct().nameref);
} catch(level0::no_such_link_type&) {
return getname(ref("UNNAMED"));
}
}
bool isa(concept* member, concept* group)
{
for (auto & g : member->getAll(is)) {
if (g == group) return true;
if (g == member) continue;
if (isa(g, group)) return true;
}
return false;
}
concept* alloc(std::any val)
{
ref ret = level0::alloc(val);
std::stringstream ss;
ss << val.type().name() << "(";
if (false);
#define t(T) \
else if (val.type() == typeid(T)) { \
ss << ret.val<T>(); \
}
t(uint8_t) t(int8_t) t(uint16_t) t(int16_t)
t(uint32_t) t(int32_t) t(uint64_t) t(int64_t)
t(bool) t(float) t(double) t(std::string) t(char const *)
#undef t
else { ss << "?"; }
ss << ")";
ret.link(concepts::name, level0::alloc(ss.str()));
return ret;
}
concept* hyphenate(concept* a, concept* b)
{
return getnamed(getname(a) + "-" + getname(b));
}
std::string dump(concept* what, concept* skipmarkertype, concept* skipmarkertarget)
{
if (what->linked(skipmarkertype, skipmarkertarget)) {
return {};
}
std::string ret;
for (auto & link : ref(what).links()) {
if (link.first == concepts::name) { continue; }
if (ret.size() == 0) {
ret = ref(what).name() + ":\n";
}
ret += " " + link.first.name() + ": " + link.second.name() + "\n";
}
what->link(skipmarkertype, skipmarkertarget);
for (auto & link : ref(what).links()) {
if (link.first.ptr() == skipmarkertype && link.second.ptr() == skipmarkertarget) {
continue;
}
ret += dump(link.second, skipmarkertype, skipmarkertarget);
}
return ret;
}
}
}
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