用于EagleEye3.0 规则集漏报和误报测试的示例项目,项目收集于github和gitee
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// Copyright (c) 2018, Oracle and/or its affiliates. All rights reserved.
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License, version 2.0,
// as published by the Free Software Foundation.
//
// This program is also distributed with certain software (including
// but not limited to OpenSSL) that is licensed under separate terms,
// as designated in a particular file or component or in included license
// documentation. The authors of MySQL hereby grant you an additional
// permission to link the program and your derivative works with the
// separately licensed software that they have included with MySQL.
//
// 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, version 2.0, for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
/// @file
///
/// This file implements the simplify functor and function.
#include "sql/gis/simplify.h"
#include "sql/gis/simplify_functor.h"
#include <memory> // std::unique_ptr
#include <boost/geometry.hpp>
#include "my_dbug.h" // DBUG_ASSERT
#include "my_inttypes.h" // MYF
#include "my_sys.h" // my_error
#include "mysqld_error.h" // Error codes
#include "sql/dd/types/spatial_reference_system.h" // dd::Spatial_reference_system
#include "sql/gis/geometries.h"
#include "sql/gis/geometries_traits.h"
#include "sql/sql_exception_handler.h" // handle_gis_exception
namespace bg = boost::geometry;
namespace gis {
std::unique_ptr<Geometry> Simplify::operator()(const Geometry &g) const {
return apply(*this, g);
}
std::unique_ptr<Geometry> Simplify::eval(const Geometry &g) const {
// All parameter type combinations have been implemented.
DBUG_ASSERT(false);
throw not_implemented_exception::for_non_projected(g);
}
std::unique_ptr<Geometry> Simplify::eval(const Cartesian_point &g) const {
Cartesian_point *pt_result = new Cartesian_point();
std::unique_ptr<Geometry> result(pt_result);
bg::simplify(g, *pt_result, m_max_distance);
return result;
}
std::unique_ptr<Geometry> Simplify::eval(const Cartesian_linestring &g) const {
Cartesian_linestring *ls_result = new Cartesian_linestring();
std::unique_ptr<Geometry> result(ls_result);
bg::simplify(g, *ls_result, m_max_distance);
if (ls_result->size() < 2) ls_result->clear();
return result;
}
std::unique_ptr<Geometry> Simplify::eval(const Cartesian_polygon &g) const {
Cartesian_polygon *py_result = new Cartesian_polygon();
std::unique_ptr<Geometry> result(py_result);
bg::simplify(g, *py_result, m_max_distance);
if (py_result->exterior_ring().size() < 4)
result.reset(new Cartesian_polygon());
return result;
}
std::unique_ptr<Geometry> Simplify::eval(
const Cartesian_geometrycollection &g) const {
Cartesian_geometrycollection *gc_result = new Cartesian_geometrycollection();
std::unique_ptr<Geometry> result(gc_result);
for (Geometry *geom : g) {
std::unique_ptr<Geometry> simplified_geom = (*this)(*geom);
if (!simplified_geom->is_empty()) gc_result->push_back(*simplified_geom);
}
return result;
}
std::unique_ptr<Geometry> Simplify::eval(const Cartesian_multipoint &g) const {
Cartesian_multipoint *mpt_result = new Cartesian_multipoint();
std::unique_ptr<Geometry> result(mpt_result);
bg::simplify(g, *mpt_result, m_max_distance);
return result;
}
std::unique_ptr<Geometry> Simplify::eval(
const Cartesian_multilinestring &g) const {
std::unique_ptr<Cartesian_multilinestring> unfiltered_result(
new Cartesian_multilinestring());
bg::simplify(g, *unfiltered_result, m_max_distance);
// bg::simplify may create geometries with too few points. Filter out those.
Cartesian_multilinestring *mls_result = new Cartesian_multilinestring();
std::unique_ptr<Geometry> result(mls_result);
for (Cartesian_linestring &ls : *unfiltered_result) {
if (ls.size() >= 2) mls_result->push_back(ls);
}
return result;
}
std::unique_ptr<Geometry> Simplify::eval(
const Cartesian_multipolygon &g) const {
std::unique_ptr<Cartesian_multipolygon> unfiltered_result(
new Cartesian_multipolygon());
bg::simplify(g, *unfiltered_result, m_max_distance);
// bg::simplify may create geometries with too few points. Filter out those.
Cartesian_multipolygon *mpy_result = new Cartesian_multipolygon();
std::unique_ptr<Geometry> result(mpy_result);
for (Cartesian_polygon &py : *unfiltered_result) {
if (py.exterior_ring().size() >= 4) mpy_result->push_back(py);
}
return result;
}
bool simplify(const dd::Spatial_reference_system *srs, const Geometry &g,
double max_distance, const char *func_name,
std::unique_ptr<Geometry> *result) noexcept {
try {
DBUG_ASSERT(srs == nullptr ||
((srs->is_cartesian() &&
g.coordinate_system() == Coordinate_system::kCartesian) ||
(srs->is_geographic() &&
g.coordinate_system() == Coordinate_system::kGeographic)));
if (srs != nullptr && !srs->is_cartesian()) {
DBUG_ASSERT(srs->is_geographic());
std::stringstream types;
types << type_to_name(g.type()) << ", ...";
my_error(ER_NOT_IMPLEMENTED_FOR_GEOGRAPHIC_SRS, MYF(0), func_name,
types.str().c_str());
return true;
}
Simplify simplify_func(max_distance);
*result = simplify_func(g);
if ((*result)->is_empty()) result->reset();
} catch (...) {
handle_gis_exception(func_name);
return true;
}
return false;
}
} // namespace gis