kicad/qa/common/geometry/test_shape_arc.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2018 KiCad Developers, see CHANGELOG.TXT for contributors.
*
* 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 2
* 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, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <geometry/shape_arc.h>
#include <unit_test_utils/geometry.h>
#include <unit_test_utils/numeric.h>
#include <unit_test_utils/unit_test_utils.h>
BOOST_AUTO_TEST_SUITE( ShapeArc )
/**
* All properties of an arc (depending on how it's constructed, some of these
* might be the same as the constructor params)
*/
struct ARC_PROPERTIES
{
VECTOR2I m_center_point;
VECTOR2I m_start_point;
VECTOR2I m_end_point;
double m_center_angle;
double m_start_angle;
double m_end_angle;
int m_radius;
BOX2I m_bbox;
};
/**
* Check a #SHAPE_ARC against a given set of geometric properties
*/
static void CheckArcGeom( const SHAPE_ARC& aArc, const ARC_PROPERTIES& aProps )
{
// Angular error - not this can get quite large for very small arcs,
// as the integral position rounding has a relatively greater effect
const double angle_tol_deg = 0.01;
// Position error - rounding to nearest integer
const int pos_tol = 1;
BOOST_CHECK_PREDICATE( KI_TEST::IsVecWithinTol<VECTOR2I>,
( aProps.m_start_point )( aProps.m_start_point )( pos_tol ) );
BOOST_CHECK_PREDICATE(
KI_TEST::IsVecWithinTol<VECTOR2I>, ( aArc.GetP1() )( aProps.m_end_point )( pos_tol ) );
BOOST_CHECK_PREDICATE( KI_TEST::IsVecWithinTol<VECTOR2I>,
( aArc.GetCenter() )( aProps.m_center_point )( pos_tol ) );
BOOST_CHECK_PREDICATE( KI_TEST::IsWithin<double>,
( aArc.GetCentralAngle() )( aProps.m_center_angle )( angle_tol_deg ) );
BOOST_CHECK_PREDICATE( KI_TEST::IsWithin<double>,
( aArc.GetStartAngle() )( aProps.m_start_angle )( angle_tol_deg ) );
BOOST_CHECK_PREDICATE( KI_TEST::IsWithin<double>,
( aArc.GetEndAngle() )( aProps.m_end_angle )( angle_tol_deg ) );
BOOST_CHECK_PREDICATE(
KI_TEST::IsWithin<double>, ( aArc.GetRadius() )( aProps.m_radius )( pos_tol ) );
/// Check the chord agrees
const auto chord = aArc.GetChord();
BOOST_CHECK_PREDICATE(
KI_TEST::IsVecWithinTol<VECTOR2I>, ( chord.A )( aProps.m_start_point )( pos_tol ) );
BOOST_CHECK_PREDICATE(
KI_TEST::IsVecWithinTol<VECTOR2I>, ( chord.B )( aProps.m_end_point )( pos_tol ) );
/// All arcs are solid
BOOST_CHECK_EQUAL( aArc.IsSolid(), true );
BOOST_CHECK_PREDICATE(
KI_TEST::IsBoxWithinTol<BOX2I>, ( aArc.BBox() )( aProps.m_bbox )( pos_tol ) );
/// Collisions will be checked elsewhere.
}
/**
* Check an arcs geometry and other class functions
*/
static void CheckArc( const SHAPE_ARC& aArc, const ARC_PROPERTIES& aProps )
{
// Check the original arc
CheckArcGeom( aArc, aProps );
// Test the Clone function (also tests copy-ctor)
std::unique_ptr<SHAPE> new_shape{ aArc.Clone() };
BOOST_CHECK_EQUAL( new_shape->Type(), SH_ARC );
SHAPE_ARC* new_arc = dynamic_cast<SHAPE_ARC*>( new_shape.get() );
BOOST_REQUIRE( new_arc != nullptr );
/// Should have identical geom props
CheckArcGeom( *new_arc, aProps );
}
/**
* Check correct handling of filter strings (as used by WX)
*/
BOOST_AUTO_TEST_CASE( NullCtor )
{
auto arc = SHAPE_ARC();
BOOST_CHECK_EQUAL( arc.GetWidth(), 0 );
static ARC_PROPERTIES null_props{
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
0,
0,
0,
0,
};
CheckArc( arc, null_props );
}
/**
* Info to set up an arc by centre, start point and angle
*
* In future there may be more ways to set this up, so keep it separate
*/
struct ARC_CENTRE_PT_ANGLE
{
VECTOR2I m_center_point;
VECTOR2I m_start_point;
double m_center_angle;
};
struct ARC_CPA_CASE
{
/// The text context name
std::string m_ctx_name;
/// Geom of the arc
ARC_CENTRE_PT_ANGLE m_geom;
/// Arc line width
int m_width;
/// Expected properties
ARC_PROPERTIES m_properties;
};
static const std::vector<ARC_CPA_CASE> arc_cases = {
{
"C(0,0) 180 + 90 degree",
{
{ 0, 0 },
{ -100, 0 },
90,
},
0,
{
{ 0, 0 },
{ -100, 0 },
{ 0, -100 },
90,
180,
270,
100,
{ { -100, -100 }, { 100, 100 } },
},
},
{
"C(100,200) 0 - 30 degree",
{
{ 100, 200 },
{ 300, 200 },
-30,
},
0,
{
{ 100, 200 },
{ 300, 200 },
{ 273, 100 }, // 200 * sin(30) = 100, 200* cos(30) = 173
-30,
0,
330,
200,
{ { 100, 100 }, { 200, 100 } },
},
},
{
// This is a "fan shape" which includes the top quadrant point,
// so it exercises the bounding box code (centre and end points
// do not contain the top quadrant)
"C(0,0) 30 + 120 degree",
{
{ 0, 0 },
{ 17320, 10000 },
120,
},
0,
{
{ 0, 0 },
{ 17320, 10000 },
{ -17320, 10000 }, // 200 * sin(30) = 100, 200* cos(30) = 173
120,
30,
150,
20000,
// bbox defined by: centre, top quadrant point, two endpoints
{ { -17320, 0 }, { 17320 * 2, 20000 } },
},
},
{
// An arc that covers three quadrant points (L/R, bottom)
"C(0,0) 150 + 240 degree",
{
{ 0, 0 },
{ -17320, 10000 },
240,
},
0,
{
{ 0, 0 },
{ -17320, 10000 },
{ 17320, 10000 },
240,
150,
30,
20000,
// bbox defined by: L/R quads, bottom quad and start/end
{ { -20000, -20000 }, { 40000, 30000 } },
},
},
{
// Same as above but reverse direction
"C(0,0) 30 - 300 degree",
{
{ 0, 0 },
{ 17320, 10000 },
-240,
},
0,
{
{ 0, 0 },
{ 17320, 10000 },
{ -17320, 10000 },
-240,
30,
150,
20000,
// bbox defined by: L/R quads, bottom quad and start/end
{ { -20000, -20000 }, { 40000, 30000 } },
},
},
};
BOOST_AUTO_TEST_CASE( BasicCPAGeom )
{
for( const auto& c : arc_cases )
{
BOOST_TEST_CONTEXT( c.m_ctx_name )
{
const auto this_arc = SHAPE_ARC{ c.m_geom.m_center_point, c.m_geom.m_start_point,
c.m_geom.m_center_angle, c.m_width };
CheckArc( this_arc, c.m_properties );
}
}
}
BOOST_AUTO_TEST_SUITE_END()