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Elphel
kicad-source-mirror
Commits
02b1319c
Commit
02b1319c
authored
Apr 02, 2015
by
Mikhail Karpenko
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Add TEARDROP class
parent
b1cd83c1
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class_teardrop.cpp
pcbnew/class_teardrop.cpp
+108
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class_teardrop.h
pcbnew/class_teardrop.h
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pcbnew/class_teardrop.cpp
0 → 100644
View file @
02b1319c
#include "class_teardrop.h"
TEARDROP
::
TEARDROP
(
BOARD_ITEM
*
aParent
)
:
TRACK
(
aParent
,
PCB_TRACE_T
)
{
m_type
=
TEARDROP_NONE
;
}
bool
TEARDROP
::
Create
(
TRACK
&
aTrack
)
{
}
bool
TEARDROP
::
SetVector
(
TRACK
&
aTrack
,
const
VIA
&
aVia
,
VECTOR2I
&
startPoint
,
VECTOR2I
&
endPoint
)
{
// Decide which end of the track is inside via and set this point as end of vector
STATUS_FLAGS
status
=
aTrack
.
IsPointOnEnds
(
wxPoint
(
aVia
.
GetPosition
().
x
,
aVia
.
GetPosition
().
y
),
aVia
.
GetWidth
()
/
2
);
if
(
status
==
STARTPOINT
)
{
startPoint
=
aTrack
.
GetEnd
();
endPoint
=
aTrack
.
GetStart
();
}
else
if
(
status
==
ENDPOINT
)
{
startPoint
=
aTrack
.
GetStart
();
endPoint
=
aTrack
.
GetEnd
();
}
else
{
// The via is too far from any ends or the track is too short
return
false
;
}
return
true
;
}
bool
TEARDROP
::
CurvedSegments
(
TRACK
&
aTrack
,
const
VIA
&
aVia
,
std
::
vector
<
VECTOR2I
>
&
upperSegment
,
std
::
vector
<
VECTOR2I
>
&
lowerSegment
)
{
VECTOR2I
startPoint
(
0
,
0
);
VECTOR2I
endPoint
(
0
,
0
);
if
(
!
SetVector
(
aTrack
,
aVia
,
startPoint
,
endPoint
)
)
{
return
false
;
}
VECTOR2I
point
(
0
,
0
);
VECTOR2I
viaCenter
(
aVia
.
GetPosition
().
x
,
aVia
.
GetPosition
().
y
);
double
coeff
=
M_PI
/
180.0
;
double
radius
=
(
aVia
.
GetWidth
()
/
2
)
-
(
aTrack
.
GetWidth
()
/
2
);
double
rotationAngle
=
VECTOR2I
(
startPoint
-
endPoint
).
Angle
();
// Calculate segments of deltoid
for
(
int
i
=
10
;
i
<=
60
;
i
=
i
+
10
)
{
point
.
x
=
2
*
radius
*
cos
(
coeff
*
i
)
+
radius
*
cos
(
2
*
coeff
*
i
);
point
.
y
=
2
*
radius
*
sin
(
coeff
*
i
)
-
radius
*
sin
(
2
*
coeff
*
i
);
point
=
point
.
Rotate
(
rotationAngle
);
point
+=
viaCenter
;
upperSegment
.
push_back
(
point
);
}
for
(
int
i
=
300
;
i
<=
350
;
i
=
i
+
10
)
{
point
.
x
=
2
*
radius
*
cos
(
coeff
*
i
)
+
radius
*
cos
(
2
*
coeff
*
i
);
point
.
y
=
2
*
radius
*
sin
(
coeff
*
i
)
-
radius
*
sin
(
2
*
coeff
*
i
);
point
=
point
.
Rotate
(
rotationAngle
);
point
+=
viaCenter
;
lowerSegment
.
push_back
(
point
);
}
return
true
;
}
bool
TEARDROP
::
StraightSegments
(
TRACK
&
aTrack
,
const
VIA
&
aVia
,
std
::
vector
<
VECTOR2I
>
&
upperSegment
,
std
::
vector
<
VECTOR2I
>
&
lowerSegment
,
int
distance
=
100
)
{
VECTOR2I
startPoint
(
0
,
0
);
VECTOR2I
endPoint
(
0
,
0
);
VECTOR2I
viaCenter
(
aVia
.
GetPosition
().
x
,
aVia
.
GetPosition
().
y
);
if
(
!
SetVector
(
aTrack
,
aVia
,
startPoint
,
endPoint
)
)
{
return
false
;
}
// Equation coefficients
double
r
=
(
aVia
.
GetWidth
()
/
2
)
+
((
distance
*
aVia
.
GetWidth
())
/
(
2
*
100
));
double
a
=
pow
((
endPoint
.
x
-
startPoint
.
x
),
2
)
+
pow
((
endPoint
.
y
-
startPoint
.
y
),
2
);
double
b
=
2
*
(
double
)(
endPoint
.
x
-
startPoint
.
x
)
*
(
double
)(
startPoint
.
x
-
viaCenter
.
x
)
+
2
*
(
double
)(
endPoint
.
y
-
startPoint
.
y
)
*
(
double
)(
startPoint
.
y
-
viaCenter
.
y
);
double
c
=
pow
((
startPoint
.
x
-
viaCenter
.
x
),
2
)
+
pow
((
startPoint
.
y
-
viaCenter
.
y
),
2
)
-
pow
(
r
,
2
);
double
t
=
2
*
c
/
(
-
b
+
sqrt
(
b
*
b
-
4
*
a
*
c
));
double
x
=
(
endPoint
.
x
-
startPoint
.
x
)
*
t
+
startPoint
.
x
;
double
y
=
(
endPoint
.
y
-
startPoint
.
y
)
*
t
+
startPoint
.
y
;
VECTOR2I
linePoint
(
x
,
y
);
int
correctedRadius
=
(
aVia
.
GetWidth
()
/
2
)
-
(
aTrack
.
GetWidth
()
/
2
);
c
=
pow
((
startPoint
.
x
-
viaCenter
.
x
),
2
)
+
pow
((
startPoint
.
y
-
viaCenter
.
y
),
2
)
-
pow
(
correctedRadius
,
2
);
t
=
2
*
c
/
(
-
b
+
sqrt
(
b
*
b
-
4
*
a
*
c
));
x
=
(
endPoint
.
x
-
startPoint
.
x
)
*
t
+
startPoint
.
x
;
y
=
(
endPoint
.
y
-
startPoint
.
y
)
*
t
+
startPoint
.
y
;
VECTOR2I
circlePoint
(
x
,
y
);
VECTOR2I
upperPoint
=
circlePoint
-
viaCenter
;
VECTOR2I
lowerPoint
=
upperPoint
;
upperPoint
=
upperPoint
.
Rotate
(
M_PI
/
2
);
lowerPoint
=
lowerPoint
.
Rotate
(
-
M_PI
/
2
);
upperPoint
+=
viaCenter
;
lowerPoint
+=
viaCenter
;
upperSegment
.
push_back
(
linePoint
);
upperSegment
.
push_back
(
upperPoint
);
lowerSegment
.
push_back
(
linePoint
);
lowerSegment
.
push_back
(
lowerPoint
);
return
true
;
}
pcbnew/class_teardrop.h
0 → 100644
View file @
02b1319c
/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2015 Elphel, Inc.
*
* 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/>.
*/
/**
* @file class_teardrop.h
* @brief Definitions for teardrops.
*/
#ifndef CLASS_TEARDROP_H
#define CLASS_TEARDROP_H
#include "class_track.h"
class
TEARDROP
:
public
TRACK
{
public
:
TEARDROP
(
BOARD_ITEM
*
aParent
);
/**
* @brief Defines the type of a teardrop.
*/
typedef
enum
{
TEARDROP_NONE
,
/// The type is undefined
TEARDROP_STRAIGHT
,
/// The teardrop is created by two straight segments
TEARDROP_CURVED
/// The teardrop is created by several segments approximating deltoid
}
TEARDROP_TYPE
;
/**
* @brief GetType returns the type of the teardrop.
* @return TEARDROP_TYPE
*/
TEARDROP_TYPE
GetType
()
const
{
return
m_type
;}
/**
* @brief Function Create creates a teardrop(s) for a given track
* @param aTrack
* @return \a true in case the teardrops were successfully built and \a false otherwise
*/
bool
Create
(
TRACK
&
aTrack
);
private
:
///> Contains the type of teardrop
TEARDROP_TYPE
m_type
;
///> \a m_upperSegment and \a m_lowerSegment contain actual segments composing a teardrop
std
::
vector
<
TRACK
>
m_upperSegment
;
std
::
vector
<
TRACK
>
m_lowerSegment
;
/**
* @brief Function \a CurvedSegments computes several points on deltoid curve and moves
* these points along the vector defined by \a aTrack.
*
* This function computes the coordinates of points only and does not build actual track segments.
* See deltiod description and its parametric equations on [wiki page](http://en.wikipedia.org/wiki/Deltoid_curve).
* @param [in] aTrack defines a vector along which the curved segments should be built
* @param [in] aVia used as the center of coordinates
* @param [out] upperSegment vector contains the coordinates of computed segments
* @param [out] lowerSegment vector contains the coordinates of mirrored segments
* @return \a true in case the segments were successfully built and \a false otherwise
*/
bool
CurvedSegments
(
TRACK
&
aTrack
,
const
VIA
&
aVia
,
std
::
vector
<
VECTOR2I
>
&
upperSegment
,
std
::
vector
<
VECTOR2I
>
&
lowerSegment
);
/**
* @brief Function \a StraightSegments builds two tangent lines for a circle from a givent point.
*
* This function computes the coordinates of points only and does not build actual track segments.
* @param [in] aTrack defines a vector along which the segments should be built
* @param [in] aVia represents a circle to which the segments should be built
* @param [in] distance is distance ratio (in percent) from circle center in respect to its diameter
* @param [out] upperSegment vector contains the coordinates of computed segments
* @param [out] lowerSegment vector contains the coordinates of mirrored segments
* @return \a true in case the segments were successfully built and \a false otherwise
*/
bool
StraightSegments
(
TRACK
&
aTrack
,
const
VIA
&
aVia
,
std
::
vector
<
VECTOR2I
>
&
upperSegment
,
std
::
vector
<
VECTOR2I
>
&
lowerSegment
,
int
distance
);
/**
* @brief Function SetVector creates a vector from \a aTrack directed into \a aVia
* @param aTrack is used to create a vector
* @param startPoint is start point of resulting vector
* @param endPoint is end point of resulting vector
* @return \a true in case the vector is created successfully and \a false otherwise
*/
bool
SetVector
(
TRACK
&
aTrack
,
const
VIA
&
aVia
,
VECTOR2I
&
startPoint
,
VECTOR2I
&
endPoint
);
};
#endif // CLASS_TEARDROP_H
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