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Elphel
kicad-source-mirror
Commits
cffe0cfc
Commit
cffe0cfc
authored
Jun 25, 2009
by
charras
Browse files
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Plain Diff
support for bezier curves
parent
ed50bac8
Changes
26
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Inline
Side-by-side
Showing
26 changed files
with
1025 additions
and
89 deletions
+1025
-89
CMakeLists.txt
common/CMakeLists.txt
+1
-0
about_kicad.cpp
common/about_kicad.cpp
+9
-12
bezier_curves.cpp
common/bezier_curves.cpp
+398
-0
drawpanel.cpp
common/drawpanel.cpp
+2
-2
gr_basic.cpp
common/gr_basic.cpp
+38
-3
build_BOM.cpp
eeschema/build_BOM.cpp
+2
-2
classes_body_items.cpp
eeschema/classes_body_items.cpp
+232
-0
classes_body_items.h
eeschema/classes_body_items.h
+66
-0
eelibs_read_libraryfiles.cpp
eeschema/eelibs_read_libraryfiles.cpp
+5
-0
locate.cpp
eeschema/locate.cpp
+7
-0
plot.cpp
eeschema/plot.cpp
+23
-0
savelib.cpp
eeschema/savelib.cpp
+4
-0
base_struct.h
include/base_struct.h
+1
-0
bezier_curves.h
include/bezier_curves.h
+13
-0
board_item_struct.h
include/board_item_struct.h
+2
-1
gr_basic.h
include/gr_basic.h
+3
-2
wxstruct.h
include/wxstruct.h
+0
-1
class_board_item.cpp
pcbnew/class_board_item.cpp
+1
-0
class_drawsegment.cpp
pcbnew/class_drawsegment.cpp
+124
-42
class_drawsegment.h
pcbnew/class_drawsegment.h
+3
-0
class_pad_draw_functions.cpp
pcbnew/class_pad_draw_functions.cpp
+2
-2
cotation.cpp
pcbnew/cotation.cpp
+2
-0
modules.cpp
pcbnew/modules.cpp
+4
-1
plot_rtn.cpp
pcbnew/plot_rtn.cpp
+57
-20
PolyLine.cpp
polygon/PolyLine.cpp
+21
-1
PolyLine.h
polygon/PolyLine.h
+5
-0
No files found.
common/CMakeLists.txt
View file @
cffe0cfc
...
@@ -10,6 +10,7 @@ set(COMMON_SRCS
...
@@ -10,6 +10,7 @@ set(COMMON_SRCS
base_screen.cpp
base_screen.cpp
base_struct.cpp
base_struct.cpp
basicframe.cpp
basicframe.cpp
bezier_curves.cpp
block_commande.cpp
block_commande.cpp
class_drawpickedstruct.cpp
class_drawpickedstruct.cpp
common.cpp
common.cpp
...
...
common/about_kicad.cpp
View file @
cffe0cfc
...
@@ -9,29 +9,25 @@
...
@@ -9,29 +9,25 @@
#define BUILD_VERSION "(20090621-unstable)"
#define BUILD_VERSION "(20090621-unstable)"
#ifndef KICAD_ABOUT_VERSION
#define KICAD_ABOUT_VERSION BUILD_VERSION
#endif
wxString
g_BuildVersion
#ifdef HAVE_SVN_VERSION
#ifdef HAVE_SVN_VERSION
#include "version.h"
#include "version.h"
(
wxT
(
KICAD_SVN_VERSION
)
)
wxString
g_BuildVersion
(
wxT
(
KICAD_SVN_VERSION
)
);
#else
#else
(
wxT
(
BUILD_VERSION
)
)
wxString
g_BuildVersion
(
wxT
(
BUILD_VERSION
)
);
#endif
#endif
;
wxString
g_BuildAboutVersion
#if defined(HAVE_SVN_VERSION) || defined(HAVE_SVN_REVISION)
#if defined(HAVE_SVN_VERSION) || defined(HAVE_SVN_REVISION)
# include "version.h"
# include "version.h"
(
wxT
(
KICAD_ABOUT_VERSION
)
)
#ifndef KICAD_ABOUT_VERSION
#define KICAD_ABOUT_VERSION BUILD_VERSION
#endif
wxString
g_BuildAboutVersion
(
wxT
(
KICAD_ABOUT_VERSION
)
);
#else
#else
(
wxT
(
BUILD_VERSION
)
)
wxString
g_BuildAboutVersion
(
wxT
(
BUILD_VERSION
)
);
#endif
#endif
;
/**********************************/
/**********************************/
...
@@ -137,6 +133,7 @@ void InitKiCadAbout( wxAboutDialogInfo& info )
...
@@ -137,6 +133,7 @@ void InitKiCadAbout( wxAboutDialogInfo& info )
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Jerry Jacobs <jerkejacobs@gmail.com>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Jerry Jacobs <jerkejacobs@gmail.com>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Jonas Diemer <diemer@gmx.de>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Jonas Diemer <diemer@gmx.de>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"KBool Library <http://boolean.klaasholwerda.nl/bool.html>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"KBool Library <http://boolean.klaasholwerda.nl/bool.html>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Marco Serantoni <marco.serantoni@gmail.com>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Rok Markovic <rok@kanardia.eu>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Rok Markovic <rok@kanardia.eu>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Tim Hanson <sideskate@gmail.com>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Tim Hanson <sideskate@gmail.com>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Vesa Solonen <vesa.solonen@hut.fi>"
)
)
);
info
.
AddDeveloper
(
SetMsg
(
wxT
(
"Vesa Solonen <vesa.solonen@hut.fi>"
)
)
);
...
...
common/bezier_curves.cpp
0 → 100644
View file @
cffe0cfc
/************************************/
/* routines to handle bezier curves */
/************************************/
#include "fctsys.h"
#include "bezier_curves.h"
#define add_segment(segment) if(bezier_points[bezier_points.size()-1] != segment) bezier_points.push_back(segment);
// Local variables:
static
std
::
vector
<
wxPoint
>
bezier_points
;
static
int
bezier_recursion_limit
=
12
;
static
double
bezier_approximation_scale
=
0.5
;
// 1
static
double
bezier_curve_collinearity_epsilon
=
1e-30
;
static
double
bezier_curve_angle_tolerance_epsilon
=
0.0001
;
static
double
bezier_distance_tolerance_square
;
// derived by approximation_scale
static
double
bezier_angle_tolerance
=
0.0
;
static
double
bezier_cusp_limit
=
0.0
;
// Local functions:
static
void
recursive_bezier
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
level
);
static
void
recursive_bezier
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
x4
,
int
y4
,
int
level
);
/***********************************************************************************/
std
::
vector
<
wxPoint
>
Bezier2Poly
(
wxPoint
c1
,
wxPoint
c2
,
wxPoint
c3
,
wxPoint
c4
)
{
return
Bezier2Poly
(
c1
.
x
,
c1
.
y
,
c2
.
x
,
c2
.
y
,
c3
.
x
,
c3
.
y
,
c4
.
x
,
c4
.
y
);
}
std
::
vector
<
wxPoint
>
Bezier2Poly
(
wxPoint
c1
,
wxPoint
c2
,
wxPoint
c3
)
{
return
Bezier2Poly
(
c1
.
x
,
c1
.
y
,
c2
.
x
,
c2
.
y
,
c3
.
x
,
c3
.
y
);
}
inline
int
calc_sq_distance
(
int
x1
,
int
y1
,
int
x2
,
int
y2
)
{
int
dx
=
x2
-
x1
;
int
dy
=
y2
-
y1
;
return
dx
*
dx
+
dy
*
dy
;
}
std
::
vector
<
wxPoint
>
Bezier2Poly
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
)
{
bezier_points
.
clear
();
bezier_distance_tolerance_square
=
0.5
/
bezier_approximation_scale
;
bezier_distance_tolerance_square
*=
bezier_distance_tolerance_square
;
bezier_points
.
push_back
(
wxPoint
(
x1
,
y1
)
);
recursive_bezier
(
x1
,
y1
,
x2
,
y2
,
x3
,
y3
,
0
);
bezier_points
.
push_back
(
wxPoint
(
x3
,
y3
)
);
wxLogDebug
(
wxT
(
"Bezier Conversion - End (%d vertex)"
),
bezier_points
.
size
()
);
return
bezier_points
;
}
std
::
vector
<
wxPoint
>
Bezier2Poly
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
x4
,
int
y4
)
{
bezier_points
.
clear
();
bezier_distance_tolerance_square
=
0.5
/
bezier_approximation_scale
;
bezier_distance_tolerance_square
*=
bezier_distance_tolerance_square
;
bezier_points
.
push_back
(
wxPoint
(
x1
,
y1
)
);
recursive_bezier
(
x1
,
y1
,
x2
,
y2
,
x3
,
y3
,
x4
,
y4
,
0
);
bezier_points
.
push_back
(
wxPoint
(
x4
,
y4
)
);
wxLogDebug
(
wxT
(
"Bezier Conversion - End (%d vertex)"
),
bezier_points
.
size
()
);
return
bezier_points
;
}
void
recursive_bezier
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
level
)
{
if
(
abs
(
level
)
>
bezier_recursion_limit
)
{
return
;
}
// Calculate all the mid-points of the line segments
//----------------------
int
x12
=
(
x1
+
x2
)
/
2
;
int
y12
=
(
y1
+
y2
)
/
2
;
int
x23
=
(
x2
+
x3
)
/
2
;
int
y23
=
(
y2
+
y3
)
/
2
;
int
x123
=
(
x12
+
x23
)
/
2
;
int
y123
=
(
y12
+
y23
)
/
2
;
int
dx
=
x3
-
x1
;
int
dy
=
y3
-
y1
;
double
d
=
fabs
(
(
(
x2
-
x3
)
*
dy
-
(
y2
-
y3
)
*
dx
)
);
double
da
;
if
(
d
>
bezier_curve_collinearity_epsilon
)
{
// Regular case
//-----------------
if
(
d
*
d
<=
bezier_distance_tolerance_square
*
(
dx
*
dx
+
dy
*
dy
)
)
{
// If the curvature doesn't exceed the distance_tolerance value
// we tend to finish subdivisions.
//----------------------
if
(
bezier_angle_tolerance
<
bezier_curve_angle_tolerance_epsilon
)
{
add_segment
(
wxPoint
(
x123
,
y123
)
);
return
;
}
// Angle & Cusp Condition
//----------------------
da
=
fabs
(
atan2
(
y3
-
y2
,
x3
-
x2
)
-
atan2
(
y2
-
y1
,
x2
-
x1
)
);
if
(
da
>=
M_PI
)
da
=
2
*
M_PI
-
da
;
if
(
da
<
bezier_angle_tolerance
)
{
// Finally we can stop the recursion
//----------------------
add_segment
(
wxPoint
(
x123
,
y123
)
);
return
;
}
}
}
else
{
// Collinear case
//------------------
da
=
dx
*
dx
+
dy
*
dy
;
if
(
da
==
0
)
{
d
=
calc_sq_distance
(
x1
,
y1
,
x2
,
y2
);
}
else
{
d
=
(
(
x2
-
x1
)
*
dx
+
(
y2
-
y1
)
*
dy
)
/
da
;
if
(
d
>
0
&&
d
<
1
)
{
// Simple collinear case, 1---2---3
// We can leave just two endpoints
return
;
}
if
(
d
<=
0
)
d
=
calc_sq_distance
(
x2
,
y2
,
x1
,
y1
);
else
if
(
d
>=
1
)
d
=
calc_sq_distance
(
x2
,
y2
,
x3
,
y3
);
else
d
=
calc_sq_distance
(
x2
,
y2
,
x1
+
d
*
dx
,
y1
+
d
*
dy
);
}
if
(
d
<
bezier_distance_tolerance_square
)
{
add_segment
(
wxPoint
(
x2
,
y2
)
);
return
;
}
}
// Continue subdivision
//----------------------
recursive_bezier
(
x1
,
y1
,
x12
,
y12
,
x123
,
y123
,
level
+
1
);
recursive_bezier
(
x123
,
y123
,
x23
,
y23
,
x3
,
y3
,
-
(
level
+
1
)
);
}
void
recursive_bezier
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
x4
,
int
y4
,
int
level
)
{
if
(
abs
(
level
)
>
bezier_recursion_limit
)
{
return
;
}
// Calculate all the mid-points of the line segments
//----------------------
int
x12
=
(
x1
+
x2
)
/
2
;
int
y12
=
(
y1
+
y2
)
/
2
;
int
x23
=
(
x2
+
x3
)
/
2
;
int
y23
=
(
y2
+
y3
)
/
2
;
int
x34
=
(
x3
+
x4
)
/
2
;
int
y34
=
(
y3
+
y4
)
/
2
;
int
x123
=
(
x12
+
x23
)
/
2
;
int
y123
=
(
y12
+
y23
)
/
2
;
int
x234
=
(
x23
+
x34
)
/
2
;
int
y234
=
(
y23
+
y34
)
/
2
;
int
x1234
=
(
x123
+
x234
)
/
2
;
int
y1234
=
(
y123
+
y234
)
/
2
;
// Try to approximate the full cubic curve by a single straight line
//------------------
int
dx
=
x4
-
x1
;
int
dy
=
y4
-
y1
;
double
d2
=
fabs
(
(
(
x2
-
x4
)
*
dy
-
(
y2
-
y4
)
*
dx
)
);
double
d3
=
fabs
(
(
(
x3
-
x4
)
*
dy
-
(
y3
-
y4
)
*
dx
)
);
double
da1
,
da2
,
k
;
switch
(
(
int
(
d2
>
bezier_curve_collinearity_epsilon
)
<<
1
)
+
int
(
d3
>
bezier_curve_collinearity_epsilon
)
)
{
case
0
:
// All collinear OR p1==p4
//----------------------
k
=
dx
*
dx
+
dy
*
dy
;
if
(
k
==
0
)
{
d2
=
calc_sq_distance
(
x1
,
y1
,
x2
,
y2
);
d3
=
calc_sq_distance
(
x4
,
y4
,
x3
,
y3
);
}
else
{
k
=
1
/
k
;
da1
=
x2
-
x1
;
da2
=
y2
-
y1
;
d2
=
k
*
(
da1
*
dx
+
da2
*
dy
);
da1
=
x3
-
x1
;
da2
=
y3
-
y1
;
d3
=
k
*
(
da1
*
dx
+
da2
*
dy
);
if
(
d2
>
0
&&
d2
<
1
&&
d3
>
0
&&
d3
<
1
)
{
// Simple collinear case, 1---2---3---4
// We can leave just two endpoints
return
;
}
if
(
d2
<=
0
)
d2
=
calc_sq_distance
(
x2
,
y2
,
x1
,
y1
);
else
if
(
d2
>=
1
)
d2
=
calc_sq_distance
(
x2
,
y2
,
x4
,
y4
);
else
d2
=
calc_sq_distance
(
x2
,
y2
,
x1
+
d2
*
dx
,
y1
+
d2
*
dy
);
if
(
d3
<=
0
)
d3
=
calc_sq_distance
(
x3
,
y3
,
x1
,
y1
);
else
if
(
d3
>=
1
)
d3
=
calc_sq_distance
(
x3
,
y3
,
x4
,
y4
);
else
d3
=
calc_sq_distance
(
x3
,
y3
,
x1
+
d3
*
dx
,
y1
+
d3
*
dy
);
}
if
(
d2
>
d3
)
{
if
(
d2
<
bezier_distance_tolerance_square
)
{
add_segment
(
wxPoint
(
x2
,
y2
)
);
return
;
}
}
else
{
if
(
d3
<
bezier_distance_tolerance_square
)
{
add_segment
(
wxPoint
(
x3
,
y3
)
);
return
;
}
}
break
;
case
1
:
// p1,p2,p4 are collinear, p3 is significant
//----------------------
if
(
d3
*
d3
<=
bezier_distance_tolerance_square
*
(
dx
*
dx
+
dy
*
dy
)
)
{
if
(
bezier_angle_tolerance
<
bezier_curve_angle_tolerance_epsilon
)
{
add_segment
(
wxPoint
(
x23
,
y23
)
);
return
;
}
// Angle Condition
//----------------------
da1
=
fabs
(
atan2
(
y4
-
y3
,
x4
-
x3
)
-
atan2
(
y3
-
y2
,
x3
-
x2
)
);
if
(
da1
>=
M_PI
)
da1
=
2
*
M_PI
-
da1
;
if
(
da1
<
bezier_angle_tolerance
)
{
add_segment
(
wxPoint
(
x2
,
y2
)
);
add_segment
(
wxPoint
(
x3
,
y3
)
);
return
;
}
if
(
bezier_cusp_limit
!=
0.0
)
{
if
(
da1
>
bezier_cusp_limit
)
{
add_segment
(
wxPoint
(
x3
,
y3
)
);
return
;
}
}
}
break
;
case
2
:
// p1,p3,p4 are collinear, p2 is significant
//----------------------
if
(
d2
*
d2
<=
bezier_distance_tolerance_square
*
(
dx
*
dx
+
dy
*
dy
)
)
{
if
(
bezier_angle_tolerance
<
bezier_curve_angle_tolerance_epsilon
)
{
add_segment
(
wxPoint
(
x23
,
y23
)
);
return
;
}
// Angle Condition
//----------------------
da1
=
fabs
(
atan2
(
y3
-
y2
,
x3
-
x2
)
-
atan2
(
y2
-
y1
,
x2
-
x1
)
);
if
(
da1
>=
M_PI
)
da1
=
2
*
M_PI
-
da1
;
if
(
da1
<
bezier_angle_tolerance
)
{
add_segment
(
wxPoint
(
x2
,
y2
)
);
add_segment
(
wxPoint
(
x3
,
y3
)
);
return
;
}
if
(
bezier_cusp_limit
!=
0.0
)
{
if
(
da1
>
bezier_cusp_limit
)
{
add_segment
(
wxPoint
(
x2
,
y2
)
);
return
;
}
}
}
break
;
case
3
:
// Regular case
//-----------------
if
(
(
d2
+
d3
)
*
(
d2
+
d3
)
<=
bezier_distance_tolerance_square
*
(
dx
*
dx
+
dy
*
dy
)
)
{
// If the curvature doesn't exceed the distance_tolerance value
// we tend to finish subdivisions.
//----------------------
if
(
bezier_angle_tolerance
<
bezier_curve_angle_tolerance_epsilon
)
{
add_segment
(
wxPoint
(
x23
,
y23
)
);
return
;
}
// Angle & Cusp Condition
//----------------------
k
=
atan2
(
y3
-
y2
,
x3
-
x2
);
da1
=
fabs
(
k
-
atan2
(
y2
-
y1
,
x2
-
x1
)
);
da2
=
fabs
(
atan2
(
y4
-
y3
,
x4
-
x3
)
-
k
);
if
(
da1
>=
M_PI
)
da1
=
2
*
M_PI
-
da1
;
if
(
da2
>=
M_PI
)
da2
=
2
*
M_PI
-
da2
;
if
(
da1
+
da2
<
bezier_angle_tolerance
)
{
// Finally we can stop the recursion
//----------------------
add_segment
(
wxPoint
(
x23
,
y23
)
);
return
;
}
if
(
bezier_cusp_limit
!=
0.0
)
{
if
(
da1
>
bezier_cusp_limit
)
{
add_segment
(
wxPoint
(
x2
,
y2
)
);
return
;
}
if
(
da2
>
bezier_cusp_limit
)
{
add_segment
(
wxPoint
(
x3
,
y3
)
);
return
;
}
}
}
break
;
}
// Continue subdivision
//----------------------
recursive_bezier
(
x1
,
y1
,
x12
,
y12
,
x123
,
y123
,
x1234
,
y1234
,
level
+
1
);
recursive_bezier
(
x1234
,
y1234
,
x234
,
y234
,
x34
,
y34
,
x4
,
y4
,
level
+
1
);
}
common/drawpanel.cpp
View file @
cffe0cfc
...
@@ -289,8 +289,8 @@ void WinEDA_DrawPanel::PostDirtyRect( EDA_Rect aRect )
...
@@ -289,8 +289,8 @@ void WinEDA_DrawPanel::PostDirtyRect( EDA_Rect aRect )
// The pcb units have finer granularity than the pixels, so it can happen
// The pcb units have finer granularity than the pixels, so it can happen
// that the rectangle is not large enough for the erase portion.
// that the rectangle is not large enough for the erase portion.
aRect
.
m_Size
.
x
+=
2
;
// += 1 is not enough!
aRect
.
m_Size
.
x
+=
4
;
// += 1 is not enough!
aRect
.
m_Size
.
y
+=
2
;
aRect
.
m_Size
.
y
+=
4
;
// D( printf( "2) PostDirtyRect( x=%d, y=%d, width=%d, height=%d)\n", aRect.m_Pos.x, aRect.m_Pos.y, aRect.m_Size.x, aRect.m_Size.y ); )
// D( printf( "2) PostDirtyRect( x=%d, y=%d, width=%d, height=%d)\n", aRect.m_Pos.x, aRect.m_Pos.y, aRect.m_Size.x, aRect.m_Size.y ); )
...
...
common/gr_basic.cpp
View file @
cffe0cfc
...
@@ -10,6 +10,8 @@
...
@@ -10,6 +10,8 @@
#include "macros.h"
#include "macros.h"
#include "base_struct.h"
#include "base_struct.h"
#include "class_base_screen.h"
#include "class_base_screen.h"
#include "bezier_curves.h"
#ifndef FILLED
#ifndef FILLED
#define FILLED 1
#define FILLED 1
...
@@ -33,7 +35,7 @@
...
@@ -33,7 +35,7 @@
/* variables generales */
/* variables generales */
// pour les tracs en mode XOR = GR_XOR ou GR_NXOR selon couleur de fond
// pour les trac
È
s en mode XOR = GR_XOR ou GR_NXOR selon couleur de fond
int
g_XorMode
=
GR_NXOR
;
int
g_XorMode
=
GR_NXOR
;
// couleur de fond de la frame de dessin
// couleur de fond de la frame de dessin
int
g_DrawBgColor
=
WHITE
;
int
g_DrawBgColor
=
WHITE
;
...
@@ -364,7 +366,7 @@ bool GetGRForceBlackPenState( void )
...
@@ -364,7 +366,7 @@ bool GetGRForceBlackPenState( void )
void
GRSetDrawMode
(
wxDC
*
DC
,
int
draw_mode
)
void
GRSetDrawMode
(
wxDC
*
DC
,
int
draw_mode
)
{
{
if
(
draw_mode
&
GR_OR
)
if
(
draw_mode
&
GR_OR
)
#if defined(__WXMAC__) &&
wxMAC_USE_CORE_GRAPHICS
#if defined(__WXMAC__) &&
(wxMAC_USE_CORE_GRAPHICS || wxCHECK_VERSION(2,9,0) )
DC
->
SetLogicalFunction
(
wxCOPY
);
DC
->
SetLogicalFunction
(
wxCOPY
);
#else
#else
DC
->
SetLogicalFunction
(
wxOR
);
DC
->
SetLogicalFunction
(
wxOR
);
...
@@ -372,7 +374,7 @@ void GRSetDrawMode( wxDC* DC, int draw_mode )
...
@@ -372,7 +374,7 @@ void GRSetDrawMode( wxDC* DC, int draw_mode )
else
if
(
draw_mode
&
GR_XOR
)
else
if
(
draw_mode
&
GR_XOR
)
DC
->
SetLogicalFunction
(
wxXOR
);
DC
->
SetLogicalFunction
(
wxXOR
);
else
if
(
draw_mode
&
GR_NXOR
)
else
if
(
draw_mode
&
GR_NXOR
)
#if defined (__WXMAC__) &&
wxMAC_USE_CORE_GRAPHICS
#if defined (__WXMAC__) &&
(wxMAC_USE_CORE_GRAPHICS || wxCHECK_VERSION(2,9,0) )
DC
->
SetLogicalFunction
(
wxXOR
);
DC
->
SetLogicalFunction
(
wxXOR
);
#else
#else
DC
->
SetLogicalFunction
(
wxEQUIV
);
DC
->
SetLogicalFunction
(
wxEQUIV
);
...
@@ -1497,3 +1499,36 @@ void ClipAndDrawFilledPoly( EDA_Rect* aClipBox, wxDC* aDC, wxPoint aPoints[], in
...
@@ -1497,3 +1499,36 @@ void ClipAndDrawFilledPoly( EDA_Rect* aClipBox, wxDC* aDC, wxPoint aPoints[], in
aDC
->
DrawPolygon
(
clippedPolygon
.
size
(),
&
clippedPolygon
[
0
]
);
aDC
->
DrawPolygon
(
clippedPolygon
.
size
(),
&
clippedPolygon
[
0
]
);
}
}
#endif
#endif
void
GRBezier
(
EDA_Rect
*
ClipBox
,
wxDC
*
DC
,
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
width
,
int
Color
)
{
std
::
vector
<
wxPoint
>
Points
=
Bezier2Poly
(
x1
,
y1
,
x2
,
y2
,
x3
,
y3
);
GRPoly
(
ClipBox
,
DC
,
Points
.
size
(),
&
Points
[
0
],
false
,
width
,
Color
,
0
);
}
void
GRBezier
(
EDA_Rect
*
ClipBox
,
wxDC
*
DC
,
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
x4
,
int
y4
,
int
width
,
int
Color
)
{
std
::
vector
<
wxPoint
>
Points
=
Bezier2Poly
(
x1
,
y1
,
x2
,
y2
,
x3
,
y3
,
x4
,
y4
);
GRPoly
(
ClipBox
,
DC
,
Points
.
size
(),
&
Points
[
0
],
false
,
width
,
Color
,
0
);
}
eeschema/build_BOM.cpp
View file @
cffe0cfc
...
@@ -515,7 +515,7 @@ void DIALOG_BUILD_BOM::PrintFieldData( FILE* f, SCH_COMPONENT* DrawLibItem,
...
@@ -515,7 +515,7 @@ void DIALOG_BUILD_BOM::PrintFieldData( FILE* f, SCH_COMPONENT* DrawLibItem,
/*******************************************************************************************/
/*******************************************************************************************/
{
{
// @todo make this variable length
// @todo make this variable length
static
const
wxCheckBox
*
FieldListCtrl
[]
=
{
const
wxCheckBox
*
FieldListCtrl
[]
=
{
m_AddField1
,
m_AddField1
,
m_AddField2
,
m_AddField2
,
m_AddField3
,
m_AddField3
,
...
@@ -586,7 +586,7 @@ int DIALOG_BUILD_BOM::PrintComponentsListByRef(
...
@@ -586,7 +586,7 @@ int DIALOG_BUILD_BOM::PrintComponentsListByRef(
if
(
CompactForm
)
if
(
CompactForm
)
{
{
// @todo make this variable length
// @todo make this variable length
static
const
wxCheckBox
*
FieldListCtrl
[
FIELD8
-
FIELD1
+
1
]
=
{
const
wxCheckBox
*
FieldListCtrl
[
FIELD8
-
FIELD1
+
1
]
=
{
m_AddField1
,
m_AddField1
,
m_AddField2
,
m_AddField2
,
m_AddField3
,
m_AddField3
,
...
...
eeschema/classes_body_items.cpp
View file @
cffe0cfc
...
@@ -8,6 +8,7 @@
...
@@ -8,6 +8,7 @@
#include "class_drawpanel.h"
#include "class_drawpanel.h"
#include "drawtxt.h"
#include "drawtxt.h"
#include "trigo.h"
#include "trigo.h"
#include "bezier_curves.h"
#include "program.h"
#include "program.h"
#include "libcmp.h"
#include "libcmp.h"
...
@@ -1104,3 +1105,234 @@ void LibDrawPolyline::DisplayInfo( WinEDA_DrawFrame* frame )
...
@@ -1104,3 +1105,234 @@ void LibDrawPolyline::DisplayInfo( WinEDA_DrawFrame* frame )
frame
->
MsgPanel
->
Affiche_1_Parametre
(
40
,
_
(
"Bounding box"
),
msg
,
BROWN
);
frame
->
MsgPanel
->
Affiche_1_Parametre
(
40
,
_
(
"Bounding box"
),
msg
,
BROWN
);
}
}
/***************************/
/** class LibDrawBezier **/
/***************************/
LibDrawBezier
::
LibDrawBezier
(
EDA_LibComponentStruct
*
aParent
)
:
LibEDA_BaseStruct
(
COMPONENT_BEZIER_DRAW_TYPE
,
aParent
)
{
m_Fill
=
NO_FILL
;
m_Width
=
0
;
m_typeName
=
_
(
"Bezier"
);
}
bool
LibDrawBezier
::
Save
(
FILE
*
ExportFile
)
const
{
int
ccount
=
GetCornerCount
();
fprintf
(
ExportFile
,
"B %d %d %d %d"
,
ccount
,
m_Unit
,
m_Convert
,
m_Width
);
for
(
unsigned
i
=
0
;
i
<
GetCornerCount
();
i
++
)
{
fprintf
(
ExportFile
,
" %d %d"
,
m_BezierPoints
[
i
].
x
,
m_BezierPoints
[
i
].
y
);
}
fprintf
(
ExportFile
,
" %c
\n
"
,
fill_tab
[
m_Fill
]
);
return
true
;
}
bool
LibDrawBezier
::
Load
(
char
*
line
,
wxString
&
errorMsg
)
{
char
*
p
;
int
i
,
ccount
=
0
;
wxPoint
pt
;
i
=
sscanf
(
&
line
[
2
],
"%d %d %d %d"
,
&
ccount
,
&
m_Unit
,
&
m_Convert
,
&
m_Width
);
if
(
i
!=
4
)
{
errorMsg
.
Printf
(
_
(
"Bezier only had %d parameters of the required 4"
),
i
);
return
false
;
}
if
(
ccount
<=
0
)
{
errorMsg
.
Printf
(
_
(
"Bezier count parameter %d is invalid"
),
ccount
);
return
false
;
}
p
=
strtok
(
&
line
[
2
],
"
\t\n
"
);
p
=
strtok
(
NULL
,
"
\t\n
"
);
p
=
strtok
(
NULL
,
"
\t\n
"
);
p
=
strtok
(
NULL
,
"
\t\n
"
);
for
(
i
=
0
;
i
<
ccount
;
i
++
)
{
wxPoint
point
;
p
=
strtok
(
NULL
,
"
\t\n
"
);
if
(
sscanf
(
p
,
"%d"
,
&
pt
.
x
)
!=
1
)
{
errorMsg
.
Printf
(
_
(
"Bezier point %d X position not defined"
),
i
);
return
false
;
}
p
=
strtok
(
NULL
,
"
\t\n
"
);
if
(
sscanf
(
p
,
"%d"
,
&
pt
.
y
)
!=
1
)
{
errorMsg
.
Printf
(
_
(
"Bezier point %d Y position not defined"
),
i
);
return
false
;
}
m_BezierPoints
.
push_back
(
pt
);
}
m_Fill
=
NO_FILL
;
if
(
(
p
=
strtok
(
NULL
,
"
\t\n
"
)
)
!=
NULL
)
{
if
(
p
[
0
]
==
'F'
)
m_Fill
=
FILLED_SHAPE
;
if
(
p
[
0
]
==
'f'
)
m_Fill
=
FILLED_WITH_BG_BODYCOLOR
;
}
return
true
;
}
LibDrawBezier
*
LibDrawBezier
::
GenCopy
()
{
LibDrawBezier
*
newitem
=
new
LibDrawBezier
(
GetParent
());
newitem
->
m_BezierPoints
=
m_BezierPoints
;
// Vector copy
newitem
->
m_Width
=
m_Width
;
newitem
->
m_Unit
=
m_Unit
;
newitem
->
m_Convert
=
m_Convert
;
newitem
->
m_Flags
=
m_Flags
;
newitem
->
m_Fill
=
m_Fill
;
return
newitem
;
}
void
LibDrawBezier
::
Draw
(
WinEDA_DrawPanel
*
aPanel
,
wxDC
*
aDC
,
const
wxPoint
&
aOffset
,
int
aColor
,
int
aDrawMode
,
void
*
aData
,
const
int
aTransformMatrix
[
2
][
2
]
)
{
wxPoint
pos1
;
std
::
vector
<
wxPoint
>
PolyPointsTraslated
;
int
color
=
ReturnLayerColor
(
LAYER_DEVICE
);
int
linewidth
=
(
m_Width
==
0
)
?
g_DrawDefaultLineThickness
:
m_Width
;
m_PolyPoints
=
Bezier2Poly
(
m_BezierPoints
[
0
]
,
m_BezierPoints
[
1
]
,
m_BezierPoints
[
2
]
,
m_BezierPoints
[
3
]);
PolyPointsTraslated
.
clear
();
for
(
unsigned
int
i
=
0
;
i
<
m_PolyPoints
.
size
()
;
i
++
)
PolyPointsTraslated
.
push_back
(
TransformCoordinate
(
aTransformMatrix
,
m_PolyPoints
[
i
]
)
+
aOffset
);
if
(
aColor
<
0
)
// Used normal color or selected color
{
if
(
m_Selected
&
IS_SELECTED
)
color
=
g_ItemSelectetColor
;
}
else
color
=
aColor
;
FILL_T
fill
=
aData
?
NO_FILL
:
m_Fill
;
if
(
aColor
>=
0
)
fill
=
NO_FILL
;
if
(
fill
==
FILLED_WITH_BG_BODYCOLOR
)
GRPoly
(
&
aPanel
->
m_ClipBox
,
aDC
,
m_PolyPoints
.
size
(),
&
PolyPointsTraslated
[
0
],
1
,
linewidth
,
color
,
ReturnLayerColor
(
LAYER_DEVICE_BACKGROUND
)
);
else
if
(
fill
==
FILLED_SHAPE
)
GRPoly
(
&
aPanel
->
m_ClipBox
,
aDC
,
m_PolyPoints
.
size
(),
&
PolyPointsTraslated
[
0
],
1
,
linewidth
,
color
,
color
);
else
GRPoly
(
&
aPanel
->
m_ClipBox
,
aDC
,
m_PolyPoints
.
size
(),
&
PolyPointsTraslated
[
0
],
0
,
linewidth
,
color
,
color
);
}
/**
* Function HitTest
* tests if the given wxPoint is within the bounds of this object.
* @param aRefPos A wxPoint to test
* @return bool - true if a hit, else false
*/
bool
LibDrawBezier
::
HitTest
(
const
wxPoint
&
aRefPos
)
{
int
mindist
=
m_Width
?
m_Width
/
2
:
g_DrawDefaultLineThickness
/
2
;
// Have a minimal tolerance for hit test
if
(
mindist
<
3
)
mindist
=
3
;
// = 3 mils
return
HitTest
(
aRefPos
,
mindist
,
DefaultTransformMatrix
);
}
/** Function HitTest
* @return true if the point aPosRef is near a segment
* @param aPosRef = a wxPoint to test
* @param aThreshold = max distance to a segment
* @param aTransMat = the transform matrix
*/
bool
LibDrawBezier
::
HitTest
(
wxPoint
aPosRef
,
int
aThreshold
,
const
int
aTransMat
[
2
][
2
]
)
{
wxPoint
ref
,
start
,
end
;
for
(
unsigned
ii
=
1
;
ii
<
GetCornerCount
();
ii
++
)
{
start
=
TransformCoordinate
(
aTransMat
,
m_PolyPoints
[
ii
-
1
]
);
end
=
TransformCoordinate
(
aTransMat
,
m_PolyPoints
[
ii
]
);
if
(
TestSegmentHit
(
aPosRef
,
start
,
end
,
aThreshold
)
)
return
true
;
}
return
false
;
}
/** Function GetBoundingBox
* @return the boundary box for this, in library coordinates
*/
EDA_Rect
LibDrawBezier
::
GetBoundingBox
()
{
EDA_Rect
rect
;
int
xmin
,
xmax
,
ymin
,
ymax
;
if
(
!
GetCornerCount
())
return
rect
;
xmin
=
xmax
=
m_PolyPoints
[
0
].
x
;
ymin
=
ymax
=
m_PolyPoints
[
0
].
y
;
for
(
unsigned
ii
=
1
;
ii
<
GetCornerCount
();
ii
++
)
{
xmin
=
MIN
(
xmin
,
m_PolyPoints
[
ii
].
x
);
xmax
=
MAX
(
xmax
,
m_PolyPoints
[
ii
].
x
);
ymin
=
MIN
(
ymin
,
m_PolyPoints
[
ii
].
y
);
ymax
=
MAX
(
ymax
,
m_PolyPoints
[
ii
].
y
);
}
rect
.
SetOrigin
(
xmin
,
ymin
*
-
1
);
rect
.
SetEnd
(
xmax
,
ymax
*
-
1
);
rect
.
Inflate
(
m_Width
/
2
,
m_Width
/
2
);
return
rect
;
}
void
LibDrawBezier
::
DisplayInfo
(
WinEDA_DrawFrame
*
frame
)
{
wxString
msg
;
EDA_Rect
bBox
=
GetBoundingBox
();
LibEDA_BaseStruct
::
DisplayInfo
(
frame
);
msg
=
ReturnStringFromValue
(
g_UnitMetric
,
m_Width
,
EESCHEMA_INTERNAL_UNIT
,
true
);
frame
->
MsgPanel
->
Affiche_1_Parametre
(
20
,
_
(
"Line width"
),
msg
,
BLUE
);
msg
.
Printf
(
wxT
(
"(%d, %d, %d, %d)"
),
bBox
.
GetOrigin
().
x
,
bBox
.
GetOrigin
().
y
,
bBox
.
GetEnd
().
x
,
bBox
.
GetEnd
().
y
);
frame
->
MsgPanel
->
Affiche_1_Parametre
(
40
,
_
(
"Bounding box"
),
msg
,
BROWN
);
}
eeschema/classes_body_items.h
View file @
cffe0cfc
...
@@ -658,4 +658,70 @@ public:
...
@@ -658,4 +658,70 @@ public:
virtual
void
DisplayInfo
(
WinEDA_DrawFrame
*
frame
);
virtual
void
DisplayInfo
(
WinEDA_DrawFrame
*
frame
);
};
};
/**********************************************************/
/* Graphic Body Item: Bezier Curve (set of lines) */
/**********************************************************/
class
LibDrawBezier
:
public
LibEDA_BaseStruct
{
public
:
int
m_Width
;
/* Line width */
std
::
vector
<
wxPoint
>
m_BezierPoints
;
// list of parameter (3|4)
std
::
vector
<
wxPoint
>
m_PolyPoints
;
// list of points (>= 2)
public
:
LibDrawBezier
(
EDA_LibComponentStruct
*
aParent
);
~
LibDrawBezier
()
{
}
virtual
wxString
GetClass
()
const
{
return
wxT
(
"LibDrawBezier"
);
}
/**
* Function Save
* writes the data structures for this object out to a FILE in "*.brd"
* format.
* @param aFile The FILE to write to.
* @return bool - true if success writing else false.
*/
virtual
bool
Save
(
FILE
*
aFile
)
const
;
virtual
bool
Load
(
char
*
line
,
wxString
&
errorMsg
);
LibDrawBezier
*
GenCopy
();
void
AddPoint
(
const
wxPoint
&
point
);
/** Function GetCornerCount
* @return the number of corners
*/
unsigned
GetCornerCount
()
const
{
return
m_PolyPoints
.
size
();
}
/**
* Function HitTest
* tests if the given wxPoint is within the bounds of this object.
* @param aRefPos A wxPoint to test
* @return bool - true if a hit, else false
*/
virtual
bool
HitTest
(
const
wxPoint
&
aRefPos
);
/** Function HitTest
* @return true if the point aPosRef is near a segment
* @param aPosRef = a wxPoint to test
* @param aThreshold = max distance to a segment
* @param aTransMat = the transform matrix
*/
virtual
bool
HitTest
(
wxPoint
aPosRef
,
int
aThreshold
,
const
int
aTransMat
[
2
][
2
]
);
/** Function GetBoundingBox
* @return the boundary box for this, in library coordinates
*/
virtual
EDA_Rect
GetBoundingBox
();
void
Draw
(
WinEDA_DrawPanel
*
aPanel
,
wxDC
*
aDC
,
const
wxPoint
&
aOffset
,
int
aColor
,
int
aDrawMode
,
void
*
aData
,
const
int
aTransformMatrix
[
2
][
2
]
);
virtual
void
DisplayInfo
(
WinEDA_DrawFrame
*
frame
);
};
#endif // CLASSES_BODY_ITEMS_H
#endif // CLASSES_BODY_ITEMS_H
eeschema/eelibs_read_libraryfiles.cpp
View file @
cffe0cfc
...
@@ -594,6 +594,11 @@ static LibEDA_BaseStruct* ReadDrawEntryItemDescription (EDA_LibComponentStruct*
...
@@ -594,6 +594,11 @@ static LibEDA_BaseStruct* ReadDrawEntryItemDescription (EDA_LibComponentStruct*
entryLoaded
=
New
->
Load
(
Line
,
errorMsg
);
entryLoaded
=
New
->
Load
(
Line
,
errorMsg
);
break
;
break
;
case
'B'
:
/* Bezier */
New
=
(
LibEDA_BaseStruct
*
)
new
LibDrawBezier
(
aParent
);
entryLoaded
=
New
->
Load
(
Line
,
errorMsg
);
break
;
default:
default:
MsgLine
.
Printf
(
wxT
(
"Undefined DRAW command in line %d
\n
%s, aborted."
),
MsgLine
.
Printf
(
wxT
(
"Undefined DRAW command in line %d
\n
%s, aborted."
),
*
LineNum
,
Line
);
*
LineNum
,
Line
);
...
...
eeschema/locate.cpp
View file @
cffe0cfc
...
@@ -717,6 +717,13 @@ LibEDA_BaseStruct* LocateDrawItem( SCH_SCREEN* Screen,
...
@@ -717,6 +717,13 @@ LibEDA_BaseStruct* LocateDrawItem( SCH_SCREEN* Screen,
return
DrawItem
;
return
DrawItem
;
break
;
break
;
case
COMPONENT_BEZIER_DRAW_TYPE
:
if
(
(
masque
&
LOCATE_COMPONENT_POLYLINE_DRAW_TYPE
)
==
0
)
break
;
if
(
DrawItem
->
HitTest
(
aRefPoint
)
)
return
DrawItem
;
break
;
case
COMPONENT_LINE_DRAW_TYPE
:
case
COMPONENT_LINE_DRAW_TYPE
:
if
(
(
masque
&
LOCATE_COMPONENT_LINE_DRAW_TYPE
)
==
0
)
if
(
(
masque
&
LOCATE_COMPONENT_LINE_DRAW_TYPE
)
==
0
)
break
;
break
;
...
...
eeschema/plot.cpp
View file @
cffe0cfc
...
@@ -347,6 +347,29 @@ void PlotLibPart( SCH_COMPONENT* DrawLibItem )
...
@@ -347,6 +347,29 @@ void PlotLibPart( SCH_COMPONENT* DrawLibItem )
}
}
break
;
break
;
case
COMPONENT_BEZIER_DRAW_TYPE
:
{
LibDrawBezier
*
polyline
=
(
LibDrawBezier
*
)
DEntry
;
Poly
=
(
int
*
)
MyMalloc
(
sizeof
(
int
)
*
2
*
polyline
->
GetCornerCount
()
);
for
(
ii
=
0
;
ii
<
(
int
)
polyline
->
GetCornerCount
();
ii
++
)
{
pos
=
polyline
->
m_PolyPoints
[
ii
];
pos
=
TransformCoordinate
(
TransMat
,
pos
)
+
DrawLibItem
->
m_Pos
;
Poly
[
ii
*
2
]
=
pos
.
x
;
Poly
[
ii
*
2
+
1
]
=
pos
.
y
;
}
if
(
draw_bgfill
&&
polyline
->
m_Fill
==
FILLED_WITH_BG_BODYCOLOR
)
{
SetColorMapPS
(
ReturnLayerColor
(
LAYER_DEVICE_BACKGROUND
)
);
PlotPoly
(
ii
,
Poly
,
true
,
0
);
}
if
(
(
g_PlotFormat
==
PLOT_FORMAT_POST
)
&&
g_PlotPSColorOpt
)
SetColorMapPS
(
ReturnLayerColor
(
LAYER_DEVICE
)
);
PlotPoly
(
ii
,
Poly
,
polyline
->
m_Fill
==
FILLED_SHAPE
?
true
:
false
,
polyline
->
m_Width
);
MyFree
(
Poly
);
}
default
:
default
:
D
(
printf
(
"Drawing Type=%d
\n
"
,
DEntry
->
Type
()
)
);
D
(
printf
(
"Drawing Type=%d
\n
"
,
DEntry
->
Type
()
)
);
}
}
...
...
eeschema/savelib.cpp
View file @
cffe0cfc
...
@@ -60,6 +60,10 @@ LibEDA_BaseStruct* CopyDrawEntryStruct( wxWindow* frame,
...
@@ -60,6 +60,10 @@ LibEDA_BaseStruct* CopyDrawEntryStruct( wxWindow* frame,
NewDrawItem
=
(
(
LibDrawPolyline
*
)
DrawItem
)
->
GenCopy
();
NewDrawItem
=
(
(
LibDrawPolyline
*
)
DrawItem
)
->
GenCopy
();
break
;
break
;
case
COMPONENT_BEZIER_DRAW_TYPE
:
NewDrawItem
=
(
(
LibDrawBezier
*
)
DrawItem
)
->
GenCopy
();
break
;
default:
default:
msg
.
Printf
(
wxT
(
"CopyDrawLibEntryStruct: unknown Draw Type %d"
),
msg
.
Printf
(
wxT
(
"CopyDrawLibEntryStruct: unknown Draw Type %d"
),
DrawItem
->
Type
()
);
DrawItem
->
Type
()
);
...
...
include/base_struct.h
View file @
cffe0cfc
...
@@ -77,6 +77,7 @@ enum KICAD_T {
...
@@ -77,6 +77,7 @@ enum KICAD_T {
COMPONENT_LINE_DRAW_TYPE
,
COMPONENT_LINE_DRAW_TYPE
,
COMPONENT_PIN_DRAW_TYPE
,
COMPONENT_PIN_DRAW_TYPE
,
COMPONENT_FIELD_DRAW_TYPE
,
COMPONENT_FIELD_DRAW_TYPE
,
COMPONENT_BEZIER_DRAW_TYPE
,
// End value
// End value
MAX_STRUCT_TYPE_ID
MAX_STRUCT_TYPE_ID
...
...
include/bezier_curves.h
0 → 100644
View file @
cffe0cfc
#ifndef BEZIER_CURVES_H
#define BEZIER_CURVES_H
#include <vector>
std
::
vector
<
wxPoint
>
Bezier2Poly
(
wxPoint
c1
,
wxPoint
c2
,
wxPoint
c3
);
std
::
vector
<
wxPoint
>
Bezier2Poly
(
wxPoint
c1
,
wxPoint
c2
,
wxPoint
c3
,
wxPoint
c4
);
std
::
vector
<
wxPoint
>
Bezier2Poly
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
);
std
::
vector
<
wxPoint
>
Bezier2Poly
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
x4
,
int
y4
);
#endif // BEZIER_CURVES_H
include/board_item_struct.h
View file @
cffe0cfc
...
@@ -19,7 +19,8 @@ enum Track_Shapes {
...
@@ -19,7 +19,8 @@ enum Track_Shapes {
S_SPOT_OVALE
,
/* Oblong spot (for GERBER)*/
S_SPOT_OVALE
,
/* Oblong spot (for GERBER)*/
S_SPOT_CIRCLE
,
/* rounded spot (for GERBER)*/
S_SPOT_CIRCLE
,
/* rounded spot (for GERBER)*/
S_SPOT_RECT
,
/* Rectangular spott (for GERBER)*/
S_SPOT_RECT
,
/* Rectangular spott (for GERBER)*/
S_POLYGON
/* polygonal shape */
S_POLYGON
,
/* polygonal shape */
S_CURVE
/* Bezier Curve*/
};
};
...
...
include/gr_basic.h
View file @
cffe0cfc
...
@@ -6,8 +6,7 @@
...
@@ -6,8 +6,7 @@
#define GR_BASIC
#define GR_BASIC
#include "colors.h"
#include "colors.h"
#include <vector>
class
EDA_Rect
;
class
EDA_Rect
;
...
@@ -86,6 +85,8 @@ void GRSLineRel(EDA_Rect * ClipBox, wxDC * DC, int x, int y, int width, int Colo
...
@@ -86,6 +85,8 @@ void GRSLineRel(EDA_Rect * ClipBox, wxDC * DC, int x, int y, int width, int Colo
void
GRPoly
(
EDA_Rect
*
ClipBox
,
wxDC
*
DC
,
int
n
,
wxPoint
Points
[],
bool
Fill
,
int
width
,
int
Color
,
int
BgColor
);
void
GRPoly
(
EDA_Rect
*
ClipBox
,
wxDC
*
DC
,
int
n
,
wxPoint
Points
[],
bool
Fill
,
int
width
,
int
Color
,
int
BgColor
);
void
GRBezier
(
EDA_Rect
*
ClipBox
,
wxDC
*
DC
,
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
width
,
int
Color
);
void
GRBezier
(
EDA_Rect
*
ClipBox
,
wxDC
*
DC
,
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
x4
,
int
y4
,
int
width
,
int
Color
);
/**
/**
* Function GRClosedPoly
* Function GRClosedPoly
...
...
include/wxstruct.h
View file @
cffe0cfc
...
@@ -9,7 +9,6 @@
...
@@ -9,7 +9,6 @@
#include <vector>
#include <vector>
#include <wx/socket.h>
#include <wx/socket.h>
#include "wx/log.h"
#include "wx/log.h"
#include "wx/config.h"
#include "wx/config.h"
...
...
pcbnew/class_board_item.cpp
View file @
cffe0cfc
...
@@ -24,6 +24,7 @@ wxString BOARD_ITEM::ShowShape( Track_Shapes aShape )
...
@@ -24,6 +24,7 @@ wxString BOARD_ITEM::ShowShape( Track_Shapes aShape )
case
S_RECT
:
return
_
(
"Rect"
);
case
S_RECT
:
return
_
(
"Rect"
);
case
S_ARC
:
return
_
(
"Arc"
);
case
S_ARC
:
return
_
(
"Arc"
);
case
S_CIRCLE
:
return
_
(
"Circle"
);
case
S_CIRCLE
:
return
_
(
"Circle"
);
case
S_CURVE
:
return
_
(
"Bezier Curve"
);
// used in Gerbview:
// used in Gerbview:
case
S_ARC_RECT
:
return
wxT
(
"arc_rect"
);
case
S_ARC_RECT
:
return
wxT
(
"arc_rect"
);
...
...
pcbnew/class_drawsegment.cpp
View file @
cffe0cfc
...
@@ -5,6 +5,7 @@
...
@@ -5,6 +5,7 @@
#include "fctsys.h"
#include "fctsys.h"
#include "wxstruct.h"
#include "wxstruct.h"
#include "gr_basic.h"
#include "gr_basic.h"
#include "bezier_curves.h"
#include "common.h"
#include "common.h"
#include "class_drawpanel.h"
#include "class_drawpanel.h"
#include "kicad_string.h"
#include "kicad_string.h"
...
@@ -39,6 +40,8 @@ void DRAWSEGMENT::Copy( DRAWSEGMENT* source )
...
@@ -39,6 +40,8 @@ void DRAWSEGMENT::Copy( DRAWSEGMENT* source )
m_Shape
=
source
->
m_Shape
;
m_Shape
=
source
->
m_Shape
;
m_Angle
=
source
->
m_Angle
;
m_Angle
=
source
->
m_Angle
;
m_TimeStamp
=
source
->
m_TimeStamp
;
m_TimeStamp
=
source
->
m_TimeStamp
;
m_BezierC1
=
source
->
m_BezierC1
;
m_BezierC2
=
source
->
m_BezierC1
;
}
}
...
@@ -56,10 +59,17 @@ bool DRAWSEGMENT::Save( FILE* aFile ) const
...
@@ -56,10 +59,17 @@ bool DRAWSEGMENT::Save( FILE* aFile ) const
m_Shape
,
m_Shape
,
m_Start
.
x
,
m_Start
.
y
,
m_Start
.
x
,
m_Start
.
y
,
m_End
.
x
,
m_End
.
y
,
m_Width
);
m_End
.
x
,
m_End
.
y
,
m_Width
);
if
(
m_Type
!=
S_CURVE
)
{
fprintf
(
aFile
,
"De %d %d %d %lX %X
\n
"
,
fprintf
(
aFile
,
"De %d %d %d %lX %X
\n
"
,
m_Layer
,
m_Type
,
m_Angle
,
m_Layer
,
m_Type
,
m_Angle
,
m_TimeStamp
,
ReturnStatus
()
);
m_TimeStamp
,
ReturnStatus
()
);
}
else
{
fprintf
(
aFile
,
"De %d %d %d %lX %X %d %d %d %d
\n
"
,
m_Layer
,
m_Type
,
m_Angle
,
m_TimeStamp
,
ReturnStatus
(),
m_BezierC1
.
x
,
m_BezierC1
.
y
,
m_BezierC2
.
x
,
m_BezierC2
.
y
);
}
if
(
fprintf
(
aFile
,
"$EndDRAWSEGMENT
\n
"
)
!=
sizeof
(
"$EndDRAWSEGMENT
\n
"
)
-
1
)
if
(
fprintf
(
aFile
,
"$EndDRAWSEGMENT
\n
"
)
!=
sizeof
(
"$EndDRAWSEGMENT
\n
"
)
-
1
)
goto
out
;
goto
out
;
...
@@ -96,9 +106,44 @@ bool DRAWSEGMENT::ReadDrawSegmentDescr( FILE* File, int* LineNum )
...
@@ -96,9 +106,44 @@ bool DRAWSEGMENT::ReadDrawSegmentDescr( FILE* File, int* LineNum )
if
(
Line
[
0
]
==
'D'
)
if
(
Line
[
0
]
==
'D'
)
{
{
int
status
;
int
status
;
sscanf
(
Line
+
2
,
" %d %d %d %lX %X"
,
char
*
token
=
0
;
&
m_Layer
,
&
m_Type
,
&
m_Angle
,
&
m_TimeStamp
,
&
status
);
token
=
strtok
(
Line
,
" "
);
for
(
int
i
=
0
;
(
token
=
strtok
(
NULL
,
" "
))
!=
NULL
;
i
++
){
switch
(
i
){
case
0
:
sscanf
(
token
,
"%d"
,
&
m_Layer
);
break
;
case
1
:
sscanf
(
token
,
"%d"
,
&
m_Type
);
break
;
case
2
:
sscanf
(
token
,
"%d"
,
&
m_Angle
);
break
;
case
3
:
sscanf
(
token
,
"%lX"
,
&
m_TimeStamp
);
break
;
case
4
:
sscanf
(
token
,
"%X"
,
&
status
);
break
;
/* Bezier Control Points*/
case
5
:
sscanf
(
token
,
"%d"
,
&
m_BezierC1
.
x
);
break
;
case
6
:
sscanf
(
token
,
"%d"
,
&
m_BezierC1
.
y
);
break
;
case
7
:
sscanf
(
token
,
"%d"
,
&
m_BezierC2
.
x
);
break
;
case
8
:
sscanf
(
token
,
"%d"
,
&
m_BezierC2
.
y
);
break
;
default
:
break
;
}
}
if
(
m_Layer
<
FIRST_NO_COPPER_LAYER
)
if
(
m_Layer
<
FIRST_NO_COPPER_LAYER
)
m_Layer
=
FIRST_NO_COPPER_LAYER
;
m_Layer
=
FIRST_NO_COPPER_LAYER
;
...
@@ -235,7 +280,30 @@ void DRAWSEGMENT::Draw( WinEDA_DrawPanel* panel, wxDC* DC,
...
@@ -235,7 +280,30 @@ void DRAWSEGMENT::Draw( WinEDA_DrawPanel* panel, wxDC* DC,
rayon
,
m_Width
,
color
);
rayon
,
m_Width
,
color
);
}
}
break
;
break
;
case
S_CURVE
:
m_BezierPoints
=
Bezier2Poly
(
m_Start
,
m_BezierC1
,
m_BezierC2
,
m_End
);
for
(
unsigned
int
i
=
1
;
i
<
m_BezierPoints
.
size
();
i
++
)
{
if
(
mode
==
FILAIRE
)
GRLine
(
&
panel
->
m_ClipBox
,
DC
,
m_BezierPoints
[
i
].
x
,
m_BezierPoints
[
i
].
y
,
m_BezierPoints
[
i
-
1
].
x
,
m_BezierPoints
[
i
-
1
].
y
,
0
,
color
);
else
if
(
mode
==
SKETCH
)
{
GRCSegm
(
&
panel
->
m_ClipBox
,
DC
,
m_BezierPoints
[
i
].
x
,
m_BezierPoints
[
i
].
y
,
m_BezierPoints
[
i
-
1
].
x
,
m_BezierPoints
[
i
-
1
].
y
,
m_Width
,
color
);
}
else
{
GRFillCSegm
(
&
panel
->
m_ClipBox
,
DC
,
m_BezierPoints
[
i
].
x
,
m_BezierPoints
[
i
].
y
,
m_BezierPoints
[
i
-
1
].
x
,
m_BezierPoints
[
i
-
1
].
y
,
m_Width
,
color
);
}
}
break
;
default
:
default
:
if
(
mode
==
FILAIRE
)
if
(
mode
==
FILAIRE
)
GRLine
(
&
panel
->
m_ClipBox
,
DC
,
ux0
,
uy0
,
dx
,
dy
,
0
,
color
);
GRLine
(
&
panel
->
m_ClipBox
,
DC
,
ux0
,
uy0
,
dx
,
dy
,
0
,
color
);
...
@@ -274,19 +342,24 @@ void DRAWSEGMENT::DisplayInfo( WinEDA_DrawFrame* frame )
...
@@ -274,19 +342,24 @@ void DRAWSEGMENT::DisplayInfo( WinEDA_DrawFrame* frame )
wxString
shape
=
_
(
"Shape"
);
wxString
shape
=
_
(
"Shape"
);
if
(
m_Shape
==
S_CIRCLE
)
switch
(
m_Shape
)
{
case
S_CIRCLE
:
Affiche_1_Parametre
(
frame
,
10
,
shape
,
_
(
"Circle"
),
RED
);
Affiche_1_Parametre
(
frame
,
10
,
shape
,
_
(
"Circle"
),
RED
);
break
;
else
if
(
m_Shape
==
S_ARC
)
case
S_ARC
:
{
Affiche_1_Parametre
(
frame
,
10
,
shape
,
_
(
"Arc"
),
RED
);
Affiche_1_Parametre
(
frame
,
10
,
shape
,
_
(
"Arc"
),
RED
);
msg
.
Printf
(
wxT
(
"%d.%d"
),
m_Angle
/
10
,
m_Angle
%
10
);
msg
.
Printf
(
wxT
(
"%d.%d"
),
m_Angle
/
10
,
m_Angle
%
10
);
Affiche_1_Parametre
(
frame
,
18
,
_
(
"Angle"
),
msg
,
RED
);
Affiche_1_Parametre
(
frame
,
18
,
_
(
"Angle"
),
msg
,
RED
);
}
break
;
else
case
S_CURVE
:
Affiche_1_Parametre
(
frame
,
10
,
shape
,
_
(
"Segment"
),
RED
);
Affiche_1_Parametre
(
frame
,
10
,
shape
,
_
(
"Curve"
),
RED
);
break
;
default
:
Affiche_1_Parametre
(
frame
,
10
,
shape
,
_
(
"Segment"
),
RED
);
}
wxString
start
;
wxString
start
;
start
<<
GetStart
();
start
<<
GetStart
();
...
@@ -322,8 +395,10 @@ bool DRAWSEGMENT::HitTest( const wxPoint& ref_pos )
...
@@ -322,8 +395,10 @@ bool DRAWSEGMENT::HitTest( const wxPoint& ref_pos )
int
spot_cX
=
ref_pos
.
x
-
ux0
;
int
spot_cX
=
ref_pos
.
x
-
ux0
;
int
spot_cY
=
ref_pos
.
y
-
uy0
;
int
spot_cY
=
ref_pos
.
y
-
uy0
;
if
(
m_Shape
==
S_CIRCLE
||
m_Shape
==
S_ARC
)
switch
(
m_Shape
){
{
case
S_CIRCLE
:
case
S_ARC
:
int
rayon
,
dist
,
stAngle
,
endAngle
,
mouseAngle
;
int
rayon
,
dist
,
stAngle
,
endAngle
,
mouseAngle
;
rayon
=
(
int
)
hypot
(
(
double
)
(
dx
),
(
double
)
(
dy
)
);
rayon
=
(
int
)
hypot
(
(
double
)
(
dx
),
(
double
)
(
dy
)
);
...
@@ -348,9 +423,16 @@ bool DRAWSEGMENT::HitTest( const wxPoint& ref_pos )
...
@@ -348,9 +423,16 @@ bool DRAWSEGMENT::HitTest( const wxPoint& ref_pos )
if
(
mouseAngle
>=
stAngle
&&
mouseAngle
<=
endAngle
)
if
(
mouseAngle
>=
stAngle
&&
mouseAngle
<=
endAngle
)
return
true
;
return
true
;
}
}
}
break
;
else
case
S_CURVE
:
for
(
unsigned
int
i
=
1
;
i
<
m_BezierPoints
.
size
();
i
++
)
{
{
if
(
TestSegmentHit
(
ref_pos
,
m_BezierPoints
[
i
-
1
],
m_BezierPoints
[
i
-
1
],
m_Width
/
2
)
)
return
true
;
}
break
;
default
:
if
(
DistanceTest
(
m_Width
/
2
,
dx
,
dy
,
spot_cX
,
spot_cY
)
)
if
(
DistanceTest
(
m_Width
/
2
,
dx
,
dy
,
spot_cX
,
spot_cY
)
)
return
true
;
return
true
;
}
}
...
...
pcbnew/class_drawsegment.h
View file @
cffe0cfc
...
@@ -15,7 +15,10 @@ public:
...
@@ -15,7 +15,10 @@ public:
int
m_Shape
;
// Shape: line, Circle, Arc
int
m_Shape
;
// Shape: line, Circle, Arc
int
m_Type
;
// Used in complex associations ( Dimensions.. )
int
m_Type
;
// Used in complex associations ( Dimensions.. )
int
m_Angle
;
// Used only for Arcs: Arc angle in 1/10 deg
int
m_Angle
;
// Used only for Arcs: Arc angle in 1/10 deg
wxPoint
m_BezierC1
;
// Bezier Control Point 1
wxPoint
m_BezierC2
;
// Bezier Control Point 1
std
::
vector
<
wxPoint
>
m_BezierPoints
;
public
:
public
:
DRAWSEGMENT
(
BOARD_ITEM
*
aParent
,
KICAD_T
idtype
=
TYPE_DRAWSEGMENT
);
DRAWSEGMENT
(
BOARD_ITEM
*
aParent
,
KICAD_T
idtype
=
TYPE_DRAWSEGMENT
);
~
DRAWSEGMENT
();
~
DRAWSEGMENT
();
...
...
pcbnew/class_pad_draw_functions.cpp
View file @
cffe0cfc
...
@@ -46,8 +46,8 @@ void D_PAD::Draw( WinEDA_DrawPanel* panel, wxDC* DC, int draw_mode, const wxPoin
...
@@ -46,8 +46,8 @@ void D_PAD::Draw( WinEDA_DrawPanel* panel, wxDC* DC, int draw_mode, const wxPoin
if
(
frame
->
m_DisplayPadFill
==
FILLED
)
if
(
frame
->
m_DisplayPadFill
==
FILLED
)
fillpad
=
1
;
fillpad
=
1
;
#if
def PCBNEW
#if
defined(PCBNEW) || defined(__WXMAC__)
if
(
m_Flags
&
IS_MOVED
)
if
(
m_Flags
&
IS_MOVED
||
!
DisplayOpt
.
DisplayPadFill
)
fillpad
=
0
;
fillpad
=
0
;
#endif
#endif
...
...
pcbnew/cotation.cpp
View file @
cffe0cfc
...
@@ -348,6 +348,8 @@ void WinEDA_PcbFrame::Install_Edit_Cotation( COTATION* Cotation,
...
@@ -348,6 +348,8 @@ void WinEDA_PcbFrame::Install_Edit_Cotation( COTATION* Cotation,
WinEDA_CotationPropertiesFrame
*
frame
=
new
WinEDA_CotationPropertiesFrame
(
this
,
WinEDA_CotationPropertiesFrame
*
frame
=
new
WinEDA_CotationPropertiesFrame
(
this
,
Cotation
,
DC
,
pos
);
Cotation
,
DC
,
pos
);
Ajuste_Details_Cotation
(
Cotation
);
frame
->
ShowModal
();
frame
->
ShowModal
();
frame
->
Destroy
();
frame
->
Destroy
();
}
}
...
...
pcbnew/modules.cpp
View file @
cffe0cfc
...
@@ -787,8 +787,11 @@ void DrawModuleOutlines( WinEDA_DrawPanel* panel, wxDC* DC, MODULE* module )
...
@@ -787,8 +787,11 @@ void DrawModuleOutlines( WinEDA_DrawPanel* panel, wxDC* DC, MODULE* module )
if
(
g_Show_Pads_Module_in_Move
)
if
(
g_Show_Pads_Module_in_Move
)
{
{
pad_fill_tmp
=
DisplayOpt
.
DisplayPadFill
;
pad_fill_tmp
=
DisplayOpt
.
DisplayPadFill
;
#ifndef __WXMAC__
DisplayOpt
.
DisplayPadFill
=
true
;
/* Trace en SKETCH en deplacement */
DisplayOpt
.
DisplayPadFill
=
true
;
/* Trace en SKETCH en deplacement */
#else
DisplayOpt
.
DisplayPadFill
=
false
;
#endif
pt_pad
=
module
->
m_Pads
;
pt_pad
=
module
->
m_Pads
;
for
(
;
pt_pad
!=
NULL
;
pt_pad
=
pt_pad
->
Next
()
)
for
(
;
pt_pad
!=
NULL
;
pt_pad
=
pt_pad
->
Next
()
)
{
{
...
...
pcbnew/plot_rtn.cpp
View file @
cffe0cfc
...
@@ -753,32 +753,69 @@ void PlotDrawSegment( DRAWSEGMENT* pt_segm, int Format, int masque_layer )
...
@@ -753,32 +753,69 @@ void PlotDrawSegment( DRAWSEGMENT* pt_segm, int Format, int masque_layer )
{
{
case
PLOT_FORMAT_GERBER
:
case
PLOT_FORMAT_GERBER
:
SelectD_CODE_For_LineDraw
(
thickness
);
SelectD_CODE_For_LineDraw
(
thickness
);
if
(
pt_segm
->
m_Shape
==
S_CIRCLE
)
switch
(
pt_segm
->
m_Shape
)
{
case
S_CIRCLE
:
PlotCircle
(
PLOT_FORMAT_GERBER
,
thickness
,
start
,
radius
);
PlotCircle
(
PLOT_FORMAT_GERBER
,
thickness
,
start
,
radius
);
else
if
(
pt_segm
->
m_Shape
==
S_ARC
)
break
;
case
S_ARC
:
PlotArc
(
PLOT_FORMAT_GERBER
,
start
,
PlotArc
(
PLOT_FORMAT_GERBER
,
start
,
StAngle
,
EndAngle
,
radius
,
thickness
);
StAngle
,
EndAngle
,
radius
,
thickness
);
else
break
;
case
S_CURVE
:
for
(
unsigned
int
i
=
1
;
i
<
pt_segm
->
m_BezierPoints
.
size
();
i
++
)
{
PlotGERBERLine
(
pt_segm
->
m_BezierPoints
[
i
-
1
],
pt_segm
->
m_BezierPoints
[
i
],
thickness
);
}
break
;
default
:
PlotGERBERLine
(
start
,
end
,
thickness
);
PlotGERBERLine
(
start
,
end
,
thickness
);
}
break
;
break
;
case
PLOT_FORMAT_HPGL
:
case
PLOT_FORMAT_HPGL
:
if
(
pt_segm
->
m_Shape
==
S_CIRCLE
)
switch
(
pt_segm
->
m_Shape
)
{
case
S_CIRCLE
:
PlotCircle
(
PLOT_FORMAT_HPGL
,
thickness
,
start
,
radius
);
PlotCircle
(
PLOT_FORMAT_HPGL
,
thickness
,
start
,
radius
);
else
if
(
pt_segm
->
m_Shape
==
S_ARC
)
break
;
case
S_ARC
:
PlotArc
(
PLOT_FORMAT_HPGL
,
start
,
StAngle
,
EndAngle
,
radius
,
thickness
);
PlotArc
(
PLOT_FORMAT_HPGL
,
start
,
StAngle
,
EndAngle
,
radius
,
thickness
);
else
Plot_Filled_Segment_HPGL
(
start
,
end
,
thickness
,
(
GRFillMode
)
g_Plot_Mode
);
break
;
break
;
case
S_CURVE
:
for
(
unsigned
int
i
=
1
;
i
<
pt_segm
->
m_BezierPoints
.
size
();
i
++
)
{
Plot_Filled_Segment_HPGL
(
pt_segm
->
m_BezierPoints
[
i
-
1
],
pt_segm
->
m_BezierPoints
[
i
],
thickness
,(
GRFillMode
)
g_Plot_Mode
);
}
break
;
default
:
Plot_Filled_Segment_HPGL
(
start
,
end
,
thickness
,
(
GRFillMode
)
g_Plot_Mode
);
}
break
;
case
PLOT_FORMAT_POST
:
case
PLOT_FORMAT_POST
:
if
(
pt_segm
->
m_Shape
==
S_CIRCLE
)
switch
(
pt_segm
->
m_Shape
)
{
case
S_CIRCLE
:
PlotCircle
(
PLOT_FORMAT_POST
,
thickness
,
start
,
radius
);
PlotCircle
(
PLOT_FORMAT_POST
,
thickness
,
start
,
radius
);
else
if
(
pt_segm
->
m_Shape
==
S_ARC
)
break
;
case
S_ARC
:
PlotArc
(
PLOT_FORMAT_POST
,
start
,
PlotArc
(
PLOT_FORMAT_POST
,
start
,
StAngle
,
EndAngle
,
radius
,
thickness
);
StAngle
,
EndAngle
,
radius
,
thickness
);
else
break
;
case
S_CURVE
:
for
(
unsigned
int
i
=
1
;
i
<
pt_segm
->
m_BezierPoints
.
size
();
i
++
)
{
PlotFilledSegmentPS
(
pt_segm
->
m_BezierPoints
[
i
-
1
],
pt_segm
->
m_BezierPoints
[
i
],
thickness
);
}
break
;
default
:
PlotFilledSegmentPS
(
start
,
end
,
thickness
);
PlotFilledSegmentPS
(
start
,
end
,
thickness
);
}
break
;
break
;
}
}
}
}
...
...
polygon/PolyLine.cpp
View file @
cffe0cfc
...
@@ -9,11 +9,13 @@
...
@@ -9,11 +9,13 @@
#include "fctsys.h"
#include "fctsys.h"
#include "PolyLine.h"
#include "PolyLine.h"
#include "gr_basic.h"
#include "bezier_curves.h"
using
namespace
std
;
using
namespace
std
;
#define pi
3.14159265359
#define pi
M_PI
CPolyLine
::
CPolyLine
()
CPolyLine
::
CPolyLine
()
{
{
...
@@ -1571,3 +1573,21 @@ void CPolyLine::AppendArc( int xi, int yi, int xf, int yf, int xc, int yc, int n
...
@@ -1571,3 +1573,21 @@ void CPolyLine::AppendArc( int xi, int yi, int xf, int yf, int xc, int yc, int n
Close
(
STRAIGHT
);
Close
(
STRAIGHT
);
}
}
// Bezier Support
void
CPolyLine
::
AppendBezier
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
)
{
std
::
vector
<
wxPoint
>
bezier_points
;
bezier_points
=
Bezier2Poly
(
x1
,
y1
,
x2
,
y2
,
x3
,
y3
);
for
(
unsigned
int
i
=
0
;
i
<
bezier_points
.
size
()
;
i
++
)
AppendCorner
(
bezier_points
[
i
].
x
,
bezier_points
[
i
].
y
);
}
void
CPolyLine
::
AppendBezier
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
x4
,
int
y4
){
std
::
vector
<
wxPoint
>
bezier_points
;
bezier_points
=
Bezier2Poly
(
x1
,
y1
,
x2
,
y2
,
x3
,
y3
,
x4
,
y4
);
for
(
unsigned
int
i
=
0
;
i
<
bezier_points
.
size
()
;
i
++
)
AppendCorner
(
bezier_points
[
i
].
x
,
bezier_points
[
i
].
y
);
}
polygon/PolyLine.h
View file @
cffe0cfc
...
@@ -243,6 +243,11 @@ public:
...
@@ -243,6 +243,11 @@ public:
private
:
private
:
Bool_Engine
*
m_Kbool_Poly_Engine
;
// polygons set in kbool engine data
Bool_Engine
*
m_Kbool_Poly_Engine
;
// polygons set in kbool engine data
bool
bDrawn
;
bool
bDrawn
;
// Bezier Support
public
:
void
AppendBezier
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
);
void
AppendBezier
(
int
x1
,
int
y1
,
int
x2
,
int
y2
,
int
x3
,
int
y3
,
int
x4
,
int
y4
);
};
};
#endif // #ifndef POLYLINE_H
#endif // #ifndef POLYLINE_H
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