/*
Ousía
Copyright (C) 2014, 2015 Benjamin Paaßen, Andreas Stöckel
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include
#include
#include "Domain.hpp"
namespace ousia {
namespace model {
/* Class FieldDescriptor */
/* Class Descriptor */
void Descriptor::continueResolve(ResolutionState &state)
{
if (attributesDescriptor != nullptr) {
const NodeVector &attributes =
attributesDescriptor->getAttributes();
continueResolveComposita(attributes, attributes.getIndex(), state);
}
continueResolveComposita(fieldDescriptors, fieldDescriptors.getIndex(),
state);
}
std::vector> Descriptor::pathTo(
Handle target) const
{
std::vector> path;
continuePath(target, path);
return path;
}
static bool pathEquals(const Descriptor &a, const Descriptor &b)
{
// We assume that two Descriptors are equal if their names and domain names
// are equal.
if (a.getName() != b.getName()) {
return false;
}
Handle aDom = a.getParent().cast();
Handle bDom = b.getParent().cast();
return aDom->getName() == bDom->getName();
}
bool Descriptor::continuePath(Handle target,
std::vector> &path) const
{
bool found = false;
// use recursive depth-first search from the top to reach the given child
if (fieldDescriptors.size() > 0) {
for (auto &fd : fieldDescriptors) {
for (auto &c : fd->getChildren()) {
if (pathEquals(*c, *target)) {
// if we have made the connection, stop the search.
path.push_back(fd);
return true;
}
// look for transparent intermediate nodes.
if (c->transparent) {
// copy the path.
std::vector> cPath = path;
cPath.push_back(fd);
cPath.push_back(c);
// recursion.
if (c->continuePath(target, cPath) &&
(!found || path.size() > cPath.size())) {
// look if this path is better than the current optimum.
path = std::move(cPath);
found = true;
}
}
}
}
} else {
// if this is a StructuredClass and if it did not formulate own
// fieldDescriptors (overriding the parent), we can also use the
// (inheritance-wise) parent
if (isa(RttiTypes::StructuredClass)) {
const StructuredClass *tis =
static_cast(this);
if (!tis->getIsA().isNull()) {
// copy the path.
std::vector> cPath = path;
if (tis->getIsA()->continuePath(target, cPath) &&
(found || path.size() > cPath.size())) {
// look if this path is better than the current optimum.
path = std::move(cPath);
found = true;
}
}
}
}
// either way we can try to find the targets parent (inheritance-wise)
// instead of the target itself.
if (!target->getIsA().isNull()) {
// copy the path.
std::vector> cPath = path;
if (continuePath(target->getIsA(), cPath) &&
(!found || path.size() > cPath.size())) {
// look if this path is better than the current optimum.
path = std::move(cPath);
found = true;
}
}
// return if we found something.
return found;
}
/* Class Domain */
void Domain::continueResolve(ResolutionState &state)
{
if (!continueResolveComposita(structuredClasses,
structuredClasses.getIndex(), state) |
continueResolveComposita(annotationClasses,
annotationClasses.getIndex(), state)) {
continueResolveReferences(typesystems, state);
}
}
}
/* Type registrations */
namespace RttiTypes {
const Rtti FieldDescriptor =
RttiBuilder("FieldDescriptor").parent(&Node);
const Rtti Descriptor =
RttiBuilder("Descriptor").parent(&Node);
const Rtti StructuredClass =
RttiBuilder("StructuredClass").parent(&Descriptor).composedOf(
&FieldDescriptor);
const Rtti AnnotationClass =
RttiBuilder("AnnotationClass").parent(&Descriptor);
const Rtti Domain =
RttiBuilder("Domain").parent(&Node).composedOf(
{&StructuredClass, &AnnotationClass});
}
}