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authorolpc user <olpc@xo-5d-f7-86.localdomain>2020-01-10 14:55:19 -0800
committerolpc user <olpc@xo-5d-f7-86.localdomain>2020-01-10 14:55:19 -0800
commitc8bb547bea279af2bb48c13260f98aa8add07131 (patch)
tree7f64265d514dc50427d2e5d8a70e09a46927dfbd /intellect-framework-from-internet/starts/meaning-vm/helpers.cpp
parent5601d1f3324c30651ad3f264ac2d6e7f12ea8b34 (diff)
downloadstandingwithresilience-c8bb547bea279af2bb48c13260f98aa8add07131.tar.gz
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move intellect-framework-from-internet into folder
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+#include "helpers.hpp"
+
+#include "meaning.hpp"
+#include "memorystore.hpp"
+
+#include <unordered_map>
+#include <functional>
+
+// sometimes we use an assignment as an expression.
+// is there any reason not to support this?
+// well, we would evaluate the assignment when it is converted to a ref
+// and currently that is used for something else
+// what is it used for?
+// I don't remember ... the assignment is destroyed and unevaluated, so it's likely
+// throughout the internal implemntation
+// it's used for the comma operator, which doesn't want evaluation.
+// okay, hmm.
+// well, if we wanted to support this, we could change the comma operator to not do the
+// conversion. use some other trick.
+// [ ] change comma operator to not do conversion: instead take statementcallref object
+// [ ] change statementcallref::operator ref() to evaluate and return the statement
+// since we're accumulating more possible bugs, let's think about design.
+// really, ref should be different from syntax sugar. we should have a special syntax sugar
+// object, and it should not use its own functions at all. that means not using meaning functions
+// that use them eiher.
+// work also brings to light how the product will be made in layers, with each layer using more interdependence and automatic meaning, etc, than the lower one.
+// layer0 is raw references and allocations
+// layer1 is very core meaning
+// layer2 is very core syntax sugar
+// each layer can only use layers below it.
+
+// concept names are for bootstrapping convenience,
+// to make hardcoding structures easier.
+// hence there is just one single list of them
+std::unordered_map<std::string,concept*,std::hash<std::string>,std::equal_to<std::string>> conceptsByName;
+
+struct name_t : public ref
+{
+ name_t();
+} name;
+
+static ref statement_function("statement-function");
+static ref statement_evaluated("statement-evaluated");
+static ref true_ref("true");
+static ref false_ref("false");
+
+ref operator-(ref a, ref b)
+{
+ return ref(a.name() + "-" + b.name());
+}
+
+statementcallref ref::operator=(ref that)
+{
+ // for single-line evaluation, we'll need to return a special object
+ declrefs(assign, expression);
+ decllnks(value, to);
+ statementcallref ret(assign-expression, [](ref expr){
+ declrefs(link, target, unknown, source, type);
+ decllnks(value, to);
+ lnks(link-target, link-type, link-source);
+ decllnks(name, is, anonymous);
+ ref lhs = expr->get(to);
+ ref rhs = expr->get(value);
+ if (lhs.isa(link) && lhs->get(link-target) == unknown) {
+ // we are a link missing a target: our assignment is making the link happen
+ lhs->unlink(link-target, unknown);
+ lhs->link(link-target, rhs);
+ ref src = lhs->get(link-source);
+ if (lhs->get(link-type) != unknown && src != unknown) {
+ src->link(lhs->get(link-type), rhs);
+ expr->unlink(to, lhs);
+ dealloc(lhs);
+ } else {
+ throw std::logic_error("not sure what to do with incomplete link assignment");
+ }
+ } else if (rhs->linked(anonymous, true) && !lhs->linked(anonymous, true)) {
+ // this is assignment of anonymous content to empty named concept
+ bool donealready = false;
+ for (auto & l : lhs->links) {
+ if (ref(l.first) == name) { continue; }
+ if (ref(l.first) == is && ref(l.second) == link-type) { continue; }
+ donealready = true;
+ }
+ if (donealready) {
+ // if we have links, and that has links we do not have, an error has been made
+ for (auto & link : rhs->links) {
+ if (ref(link.first) == anonymous) { continue; }
+ if (ref(link.first) == name) { continue; }
+ if (!lhs->linked(ref(link.first), ref(link.second))) {
+ throw std::logic_error(lhs.name() + " already defined otherwise from " + rhs->get(is).name());
+ }
+ }
+ donealready = true;
+ }
+ rhs->unlink(anonymous, true);
+ auto nam = rhs->get(name);
+ rhs->unlink(name, nam);
+ if (!donealready) {
+ lhs->links.insert(rhs->links.begin(), rhs->links.end());
+ }
+ rhs->link(name, nam);
+ expr->unlink(value, rhs);
+ dealloc(rhs);
+ dealloc(nam);
+ } else {
+ throw std::logic_error("unexpected bare assignment");
+ }
+ });
+ ret.r->link(to, *this);
+ ret.r->link(value, that);
+ return ret;
+/*
+ decllnks(anonymous, is, name);
+ declrefs(link, source, type, target, unknown);
+ lnks(link-target, link-source, link-target);
+ if (this->isa(link) && ptr->get(link-target) == unknown) {
+ } else if (that->linked(anonymous, true) && !ptr->linked(anonymous, true)) {
+ // TODO TODO: when left hand side is a link, and right hand side is anonymous,
+ // especially when left hand side is link without other content,
+ // there is no way to determine if user is providing content for link,
+ // or is making a link on another ref[a = b].
+ // instead, return just assignment information, and process in outer context.
+ // will want to make a ref subclass and assign in destructor unless has been used elsewhere.
+
+ } else if (isa(link-type)) {
+ // assignment to a link-type is likely inside a [type1=target1,type2=target2] expression
+ // this happens after checking for name assignment because when name assignment
+ // is redundant, the left-hand value could be a link
+ return (*this) << that;
+ }
+ throw std::logic_error("unexpected use of assignment");
+*/
+}
+
+/*ref ref::operator<<(ref target)
+{
+ // prep a link
+ ref ret = alloc();
+ ret->link(*this, target);
+ return ret;
+}*/
+
+void statementcallref::destatement()
+{
+ auto func = r->get(statement_function);
+ r->unlink(statement_function);
+ dealloc(func);
+}
+
+statementcallref::statementcallref(ref type, std::function<void(ref)> func)
+: r(a(type).ptr)
+{
+ r->link(statement_function, valloc<std::function<void(ref)>>(func));
+}
+
+statementcallref::statementcallref(ref const & that)
+: r(that.ptr)
+{
+ if (!that->linked(statement_function)) {
+ throw std::logic_error(std::string(that) + " has no statement-function");
+ }
+}
+
+statementcallref::operator ref()
+{
+ ref ret(r);
+ destatement();
+ r.ptr = 0;
+ return ret;
+}
+
+#include <iostream>
+statementcallref::~statementcallref() noexcept
+{
+ if (r.ptr == 0) { return; }
+ if (r->linked(statement_evaluated, true_ref)) {
+ std::cerr << "statement already evaluated: " << r << std::endl;
+ return;
+ }
+ try {
+ auto func = r->vget<std::function<void(ref)>>(statement_function, true);
+ func->data(r);
+ destatement();
+ r->link(statement_evaluated, true_ref);
+ dealloc(r);
+ r.ptr = 0;
+ } catch (std::out_of_range &) { }
+}
+
+statementcallref::statementcallref(statementcallref && that) noexcept
+: r(that.r.ptr)
+{
+ that.r.ptr = 0;
+}
+
+statementcallref::statementcallref(statementcallref & that)
+: r(that.r.ptr)
+{
+ if (that.r.ptr == 0) { throw std::logic_error("empty ref"); }
+ if (that.r->linked(statement_function)) {
+ // statements are moved, for evaluation
+ that.r.ptr = 0;
+ }
+}
+
+ref ref::operator[](ref expr) {
+ declrefs(assign, comma, expression);
+ decllnks(value, to, what);
+ declrefs(link, type, unknown);
+
+ if (expr.isa(assign-expression)) {
+ ref lhs = expr->get(to);
+ ref rhs = expr->get(value);
+ ptr->link(lhs, rhs);
+ dealloc(expr);
+ return *this;
+ } else if (expr.isa(comma-expression)) {
+ auto parts = expr->getAll(what);
+ dealloc(expr);
+ for (ref part : parts) {
+ if (!part.isa(assign-expression)) {
+ throw std::logic_error("[,] argument is not an assignment");
+ }
+ operator[](part);
+ }
+ return *this;
+ } else if (expr.isa(link-type)) {
+ return ::link(*this, expr, unknown);
+ } else {
+ throw std::logic_error("[] argument is neither a link nor an assignment");
+ }
+}
+
+statementcallref operator,(statementcallref a, statementcallref b)
+{
+ declrefs(comma, expression);
+ decllnks(what);
+ if (a.r.isa(comma-expression)) {
+ if (b.r.isa(comma-expression)) {
+ a.r->links.insert(b.r->links.begin(), b.r->links.end());
+ dealloc(b); b.r.ptr = 0;
+ } else {
+ a.r->link(what, b.r); b.r.ptr = 0;
+ }
+ return a;
+ } else if (b.r.isa(comma-expression)) {
+ b.r->link(what, a.r); a.r.ptr = 0;
+ return b;
+ } else {
+ statementcallref ret(comma-expression, [](ref) { throw std::logic_error("bare comma-expression"); });
+ ret.r->link(what, a.r); a.r.ptr = 0;
+ ret.r->link(what, b.r); b.r.ptr = 0;
+ return ret;
+ }
+}
+
+template <>
+vref<std::string>::vref(std::string const & s)
+: ptr(valloc(s).ptr)
+{
+ ptr->link(::name, ptr);
+}
+name_t::name_t()
+: ref(alloc().ptr)
+{
+ vref nam(std::string("name"));
+ ptr->link(::name, nam);
+ conceptsByName.emplace(nam, ptr);
+}
+
+ref::ref(std::string const & s)
+{
+ auto res = conceptsByName.find(s);
+ if (res != conceptsByName.end()) {
+ ptr = res->second;
+ } else {
+ ref con = alloc();
+ vref<std::string> nam(s);
+ conceptsByName.emplace(nam, con.ptr);
+ con->link(::name, nam);
+ ptr = con.ptr;
+ }
+}
+
+vref<std::string> ref::name() const
+{
+ try {
+ return ptr->vget<std::string>(::name, true);
+ } catch (std::out_of_range &) {
+ declrefs(UNNAMED);
+ return UNNAMED.name();
+ }
+}
+
+ref::operator const char *() const {
+ return name()->data.c_str();
+}
+
+ref a(ref what)
+{
+ static unsigned long long gid = 0;
+ decllnks(is, anonymous);
+ ref ret(what.name() + "-" + std::to_string(gid++));
+ ret->link(is, what);
+ ret->link(anonymous, true);
+ return ret;
+}
+ref a(ref what, ref name)
+{
+ if (!name.isa(what)) {
+ decllnks(is);
+ name[is = what];
+ }
+ return name;
+}
+ref an(ref what)
+{
+ return a(what);
+}
+ref an(ref what, ref name)
+{
+ return a(what, name);
+}
+
+bool ref::isa(ref what) const
+{
+ declrefs(is);
+ for (auto group : ptr->getAll(is)) {
+ if (group == what) return true;
+ if (group == *this) continue;
+ if (group.isa(what)) return true;
+ }
+ return false;
+}
+
+bool ref::isan(ref what) const
+{
+ return isa(what);
+}