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/*
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 <http://www.gnu.org/licenses/>.
*/
#ifndef _MODEL_TEST_DOMAIN_HPP_
#define _MODEL_TEST_DOMAIN_HPP_
#include <core/model/Domain.hpp>
#include <core/model/Typesystem.hpp>
namespace ousia {
namespace model {
/**
* This constructs a somewhat trivial system of standard types.
*
* Currently contained: string, text (struct wrapper for string)
*/
static Rooted<Typesystem> constructTypeSystem(Manager &mgr)
{
Rooted<Typesystem> sys{new Typesystem(mgr, "std")};
Rooted<StringType> string{new StringType(mgr, sys)};
sys->addType(string);
Rooted<StructType> string_struct{new StructType(
mgr, "text", sys, {new Attribute(mgr, "content", string, "", false)})};
sys->addType(string_struct);
return sys;
}
/**
* This constructs the "book" domain for test purposes. The structure of the
* domain is fairly simple and can be seen from the construction itself.
*/
static Rooted<Domain> constructBookDomain(Manager &mgr)
{
// Start with the Domain itself.
Rooted<Domain> domain{new Domain(mgr, "book")};
// The standard type system.
domain->getTypesystems().push_back(constructTypeSystem(mgr));
// Set up the cardinalities we'll need.
Cardinality single;
single.merge({1});
Cardinality any;
any.merge(Range<size_t>::typeRangeFrom(0));
// Set up the "book" node.
Rooted<StructuredClass> book{new StructuredClass(
mgr, "book", domain, single, {nullptr}, {nullptr}, false, true)};
domain->getStructureClasses().push_back(book);
// The structure field of it.
Rooted<FieldDescriptor> book_field{new FieldDescriptor(mgr, book)};
book->getFieldDescriptors().push_back(book_field);
// From there on the "section".
Rooted<StructuredClass> section{
new StructuredClass(mgr, "section", domain, any)};
book_field->getChildren().push_back(section);
domain->getStructureClasses().push_back(section);
// And the field of it.
Rooted<FieldDescriptor> section_field{new FieldDescriptor(mgr, section)};
section->getFieldDescriptors().push_back(section_field);
// We also add the "paragraph", which is transparent.
Rooted<StructuredClass> paragraph{new StructuredClass(
mgr, "paragraph", domain, any, {nullptr}, {nullptr}, true)};
section_field->getChildren().push_back(paragraph);
book_field->getChildren().push_back(paragraph);
domain->getStructureClasses().push_back(paragraph);
// ... and has a primitive field.
Rooted<FieldDescriptor> paragraph_field{new FieldDescriptor(
mgr, paragraph, domain->getTypesystems()[0]->getTypes()[1], "text",
false)};
paragraph->getFieldDescriptors().push_back(paragraph_field);
return domain;
}
}
}
#endif /* _TEST_DOMAIN_HPP_ */
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