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Elphel
kicad-source-mirror
Commits
7a110d0c
Commit
7a110d0c
authored
Jun 05, 2014
by
unknown
Committed by
jean-pierre charras
Jun 05, 2014
Browse files
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Plain Diff
IDF tools: code cleanup and debugging
parent
60a86853
Changes
13
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Showing
13 changed files
with
440 additions
and
2623 deletions
+440
-2623
CMakeLists.txt
pcbnew/CMakeLists.txt
+4
-2
dialog_export_idf.cpp
pcbnew/dialogs/dialog_export_idf.cpp
+1
-1
export_idf.cpp
pcbnew/exporters/export_idf.cpp
+202
-35
idf.cpp
pcbnew/exporters/idf.cpp
+0
-1443
idf.h
pcbnew/exporters/idf.h
+0
-321
idf_common.cpp
pcbnew/exporters/idf_common.cpp
+0
-484
idf_common.h
pcbnew/exporters/idf_common.h
+0
-290
test_donut.emn
utils/idftools/idf_examples/test_donut.emn
+45
-0
test_donut.emp
utils/idftools/idf_examples/test_donut.emp
+5
-0
idf_outlines.cpp
utils/idftools/idf_outlines.cpp
+4
-0
idf_parser.cpp
utils/idftools/idf_parser.cpp
+172
-33
idf_parser.h
utils/idftools/idf_parser.h
+7
-3
vrml_layer.cpp
utils/idftools/vrml_layer.cpp
+0
-11
No files found.
pcbnew/CMakeLists.txt
View file @
7a110d0c
...
@@ -36,6 +36,7 @@ include_directories(
...
@@ -36,6 +36,7 @@ include_directories(
./exporters
./exporters
../lib_dxf
../lib_dxf
./import_dxf
./import_dxf
../utils/idftools
${
INC_AFTER
}
${
INC_AFTER
}
)
)
...
@@ -136,8 +137,6 @@ set( PCBNEW_EXPORTERS
...
@@ -136,8 +137,6 @@ set( PCBNEW_EXPORTERS
exporters/export_gencad.cpp
exporters/export_gencad.cpp
exporters/export_idf.cpp
exporters/export_idf.cpp
exporters/export_vrml.cpp
exporters/export_vrml.cpp
exporters/idf_common.cpp
exporters/idf.cpp
exporters/gen_drill_report_files.cpp
exporters/gen_drill_report_files.cpp
exporters/gen_modules_placefile.cpp
exporters/gen_modules_placefile.cpp
exporters/gendrill_Excellon_writer.cpp
exporters/gendrill_Excellon_writer.cpp
...
@@ -385,6 +384,7 @@ if( KICAD_SCRIPTING_MODULES )
...
@@ -385,6 +384,7 @@ if( KICAD_SCRIPTING_MODULES )
common
common
pcad2kicadpcb
pcad2kicadpcb
lib_dxf
lib_dxf
idf3
${
GITHUB_PLUGIN_LIBRARIES
}
${
GITHUB_PLUGIN_LIBRARIES
}
polygon
polygon
bitmaps
bitmaps
...
@@ -565,6 +565,7 @@ if( USE_KIWAY_DLLS )
...
@@ -565,6 +565,7 @@ if( USE_KIWAY_DLLS )
bitmaps
bitmaps
gal
gal
lib_dxf
lib_dxf
idf3
${
GITHUB_PLUGIN_LIBRARIES
}
${
GITHUB_PLUGIN_LIBRARIES
}
${
wxWidgets_LIBRARIES
}
${
wxWidgets_LIBRARIES
}
${
OPENGL_LIBRARIES
}
${
OPENGL_LIBRARIES
}
...
@@ -633,6 +634,7 @@ else() # milestone A) kills this off:
...
@@ -633,6 +634,7 @@ else() # milestone A) kills this off:
bitmaps
bitmaps
gal
gal
lib_dxf
lib_dxf
idf3
${
GITHUB_PLUGIN_LIBRARIES
}
${
GITHUB_PLUGIN_LIBRARIES
}
${
wxWidgets_LIBRARIES
}
${
wxWidgets_LIBRARIES
}
${
OPENGL_LIBRARIES
}
${
OPENGL_LIBRARIES
}
...
...
pcbnew/dialogs/dialog_export_idf.cpp
View file @
7a110d0c
...
@@ -36,7 +36,7 @@
...
@@ -36,7 +36,7 @@
#define OPTKEY_IDF_THOU wxT( "IDFExportThou" )
#define OPTKEY_IDF_THOU wxT( "IDFExportThou" )
bool
Export_IDF3
(
BOARD
*
aPcb
,
const
wxString
&
aFullFileName
,
double
aUseThou
);
bool
Export_IDF3
(
BOARD
*
aPcb
,
const
wxString
&
aFullFileName
,
bool
aUseThou
);
class
DIALOG_EXPORT_IDF3
:
public
DIALOG_EXPORT_IDF3_BASE
class
DIALOG_EXPORT_IDF3
:
public
DIALOG_EXPORT_IDF3_BASE
...
...
pcbnew/exporters/export_idf.cpp
View file @
7a110d0c
...
@@ -33,8 +33,9 @@
...
@@ -33,8 +33,9 @@
#include <class_board.h>
#include <class_board.h>
#include <class_module.h>
#include <class_module.h>
#include <class_edge_mod.h>
#include <class_edge_mod.h>
#include <idf.h>
#include <idf
_parser
.h>
#include <3d_struct.h>
#include <3d_struct.h>
#include <build_version.h>
// assumed default graphical line thickness: 10000 IU == 0.1mm
// assumed default graphical line thickness: 10000 IU == 0.1mm
#define LINE_WIDTH (100000)
#define LINE_WIDTH (100000)
...
@@ -45,15 +46,15 @@
...
@@ -45,15 +46,15 @@
* the data into a form which can be output as an IDFv3 compliant
* the data into a form which can be output as an IDFv3 compliant
* BOARD_OUTLINE section.
* BOARD_OUTLINE section.
*/
*/
static
void
idf_export_outline
(
BOARD
*
aPcb
,
IDF_BOARD
&
aIDFBoard
)
static
void
idf_export_outline
(
BOARD
*
aPcb
,
IDF
3
_BOARD
&
aIDFBoard
)
{
{
double
scale
=
aIDFBoard
.
GetScale
();
double
scale
=
aIDFBoard
.
Get
User
Scale
();
DRAWSEGMENT
*
graphic
;
// KiCad graphical item
DRAWSEGMENT
*
graphic
;
// KiCad graphical item
IDF_POINT
sp
,
ep
;
// start and end points from KiCad item
IDF_POINT
sp
,
ep
;
// start and end points from KiCad item
std
::
list
<
IDF_SEGMENT
*
>
lines
;
// IDF intermediate form of KiCad graphical item
std
::
list
<
IDF_SEGMENT
*
>
lines
;
// IDF intermediate form of KiCad graphical item
IDF_OUTLINE
outline
;
// graphical items forming an outline or cutout
IDF_OUTLINE
*
outline
=
NULL
;
// graphical items forming an outline or cutout
// NOTE: IMPLEMENTATION
// NOTE: IMPLEMENTATION
// If/when component cutouts are allowed, we must implement them separately. Cutouts
// If/when component cutouts are allowed, we must implement them separately. Cutouts
...
@@ -61,7 +62,7 @@ static void idf_export_outline( BOARD* aPcb, IDF_BOARD& aIDFBoard )
...
@@ -61,7 +62,7 @@ static void idf_export_outline( BOARD* aPcb, IDF_BOARD& aIDFBoard )
// The module cutouts should be handled via the idf_export_module() routine.
// The module cutouts should be handled via the idf_export_module() routine.
double
offX
,
offY
;
double
offX
,
offY
;
aIDFBoard
.
GetOffset
(
offX
,
offY
);
aIDFBoard
.
Get
User
Offset
(
offX
,
offY
);
// Retrieve segments and arcs from the board
// Retrieve segments and arcs from the board
for
(
BOARD_ITEM
*
item
=
aPcb
->
m_Drawings
;
item
;
item
=
item
->
Next
()
)
for
(
BOARD_ITEM
*
item
=
aPcb
->
m_Drawings
;
item
;
item
=
item
->
Next
()
)
...
@@ -129,22 +130,31 @@ static void idf_export_outline( BOARD* aPcb, IDF_BOARD& aIDFBoard )
...
@@ -129,22 +130,31 @@ static void idf_export_outline( BOARD* aPcb, IDF_BOARD& aIDFBoard )
// note: we do not use a try/catch block here since we intend
// note: we do not use a try/catch block here since we intend
// to simply ignore unclosed loops and continue processing
// to simply ignore unclosed loops and continue processing
// until we're out of segments to process
// until we're out of segments to process
IDF3
::
GetOutline
(
lines
,
outline
);
outline
=
new
IDF_OUTLINE
;
IDF3
::
GetOutline
(
lines
,
*
outline
);
if
(
outline
.
empty
()
)
if
(
outline
->
empty
()
)
goto
UseBoundingBox
;
goto
UseBoundingBox
;
aIDFBoard
.
AddOutline
(
outline
);
aIDFBoard
.
AddBoardOutline
(
outline
);
outline
=
NULL
;
// get all cutouts and write them out
// get all cutouts and write them out
while
(
!
lines
.
empty
()
)
while
(
!
lines
.
empty
()
)
{
{
IDF3
::
GetOutline
(
lines
,
outline
);
if
(
!
outline
)
outline
=
new
IDF_OUTLINE
;
if
(
outline
.
empty
()
)
IDF3
::
GetOutline
(
lines
,
*
outline
);
if
(
outline
->
empty
()
)
{
outline
->
Clear
();
continue
;
continue
;
}
aIDFBoard
.
AddOutline
(
outline
);
aIDFBoard
.
AddBoardOutline
(
outline
);
outline
=
NULL
;
}
}
return
;
return
;
...
@@ -158,7 +168,10 @@ UseBoundingBox:
...
@@ -158,7 +168,10 @@ UseBoundingBox:
lines
.
pop_front
();
lines
.
pop_front
();
}
}
outline
.
Clear
();
if
(
outline
)
outline
->
Clear
();
else
outline
=
new
IDF_OUTLINE
;
// fetch a rectangular bounding box for the board;
// fetch a rectangular bounding box for the board;
// there is always some uncertainty in the board dimensions
// there is always some uncertainty in the board dimensions
...
@@ -192,7 +205,7 @@ UseBoundingBox:
...
@@ -192,7 +205,7 @@ UseBoundingBox:
p2
.
x
=
px
[
0
];
p2
.
x
=
px
[
0
];
p2
.
y
=
py
[
0
];
p2
.
y
=
py
[
0
];
outline
.
push
(
new
IDF_SEGMENT
(
p1
,
p2
)
);
outline
->
push
(
new
IDF_SEGMENT
(
p1
,
p2
)
);
for
(
int
i
=
1
;
i
<
4
;
++
i
)
for
(
int
i
=
1
;
i
<
4
;
++
i
)
{
{
...
@@ -201,10 +214,10 @@ UseBoundingBox:
...
@@ -201,10 +214,10 @@ UseBoundingBox:
p2
.
x
=
px
[
i
];
p2
.
x
=
px
[
i
];
p2
.
y
=
py
[
i
];
p2
.
y
=
py
[
i
];
outline
.
push
(
new
IDF_SEGMENT
(
p1
,
p2
)
);
outline
->
push
(
new
IDF_SEGMENT
(
p1
,
p2
)
);
}
}
aIDFBoard
.
AddOutline
(
outline
);
aIDFBoard
.
Add
Board
Outline
(
outline
);
}
}
...
@@ -216,7 +229,7 @@ UseBoundingBox:
...
@@ -216,7 +229,7 @@ UseBoundingBox:
* the library ELECTRICAL section.
* the library ELECTRICAL section.
*/
*/
static
void
idf_export_module
(
BOARD
*
aPcb
,
MODULE
*
aModule
,
static
void
idf_export_module
(
BOARD
*
aPcb
,
MODULE
*
aModule
,
IDF_BOARD
&
aIDFBoard
)
IDF
3
_BOARD
&
aIDFBoard
)
{
{
// Reference Designator
// Reference Designator
std
::
string
crefdes
=
TO_UTF8
(
aModule
->
GetReference
()
);
std
::
string
crefdes
=
TO_UTF8
(
aModule
->
GetReference
()
);
...
@@ -243,14 +256,14 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
...
@@ -243,14 +256,14 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
// Export pads
// Export pads
double
drill
,
x
,
y
;
double
drill
,
x
,
y
;
double
scale
=
aIDFBoard
.
GetScale
();
double
scale
=
aIDFBoard
.
Get
User
Scale
();
IDF3
::
KEY_PLATING
kplate
;
IDF3
::
KEY_PLATING
kplate
;
std
::
string
pintype
;
std
::
string
pintype
;
std
::
string
tstr
;
std
::
string
tstr
;
double
dx
,
dy
;
double
dx
,
dy
;
aIDFBoard
.
GetOffset
(
dx
,
dy
);
aIDFBoard
.
Get
User
Offset
(
dx
,
dy
);
for
(
D_PAD
*
pad
=
aModule
->
Pads
();
pad
;
pad
=
pad
->
Next
()
)
for
(
D_PAD
*
pad
=
aModule
->
Pads
();
pad
;
pad
=
pad
->
Next
()
)
{
{
...
@@ -313,7 +326,19 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
...
@@ -313,7 +326,19 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
}
}
else
else
{
{
aIDFBoard
.
AddDrill
(
drill
,
x
,
y
,
kplate
,
crefdes
,
pintype
,
IDF3
::
ECAD
);
IDF_DRILL_DATA
*
dp
=
new
IDF_DRILL_DATA
(
drill
,
x
,
y
,
kplate
,
crefdes
,
pintype
,
IDF3
::
ECAD
);
if
(
!
aIDFBoard
.
AddDrill
(
dp
)
)
{
delete
dp
;
std
::
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
;
ostr
<<
"(): could not add drill"
;
throw
std
::
runtime_error
(
ostr
.
str
()
);
}
}
}
}
}
}
}
...
@@ -321,6 +346,8 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
...
@@ -321,6 +346,8 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
// add any valid models to the library item list
// add any valid models to the library item list
std
::
string
refdes
;
std
::
string
refdes
;
IDF3_COMPONENT
*
comp
=
NULL
;
for
(
S3D_MASTER
*
modfile
=
aModule
->
Models
();
modfile
!=
0
;
modfile
=
modfile
->
Next
()
)
for
(
S3D_MASTER
*
modfile
=
aModule
->
Models
();
modfile
!=
0
;
modfile
=
modfile
->
Next
()
)
{
{
if
(
!
modfile
->
Is3DType
(
S3D_MASTER
::
FILE3D_IDF
)
)
if
(
!
modfile
->
Is3DType
(
S3D_MASTER
::
FILE3D_IDF
)
)
...
@@ -330,14 +357,26 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
...
@@ -330,14 +357,26 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
{
{
refdes
=
TO_UTF8
(
aModule
->
GetReference
()
);
refdes
=
TO_UTF8
(
aModule
->
GetReference
()
);
// NOREFDES cannot be used or else the software gets confused
// when writing out the placement data due to conflicting
// placement and layer specifications; to work around this we
// create a (hopefully) unique refdes for our exported part.
if
(
refdes
.
empty
()
||
!
refdes
.
compare
(
"~"
)
)
if
(
refdes
.
empty
()
||
!
refdes
.
compare
(
"~"
)
)
refdes
=
aIDFBoard
.
GetRefDes
();
refdes
=
aIDFBoard
.
Get
New
RefDes
();
}
}
IDF3_COMP_OUTLINE
*
outline
;
outline
=
aIDFBoard
.
GetComponentOutline
(
modfile
->
GetShape3DName
()
);
if
(
!
outline
)
throw
(
std
::
runtime_error
(
aIDFBoard
.
GetError
()
)
);
double
rotz
=
aModule
->
GetOrientation
()
/
10.0
;
double
rotz
=
aModule
->
GetOrientation
()
/
10.0
;
double
locx
=
modfile
->
m_MatPosition
.
x
;
double
locx
=
modfile
->
m_MatPosition
.
x
;
double
locy
=
modfile
->
m_MatPosition
.
y
;
double
locy
=
modfile
->
m_MatPosition
.
y
;
double
locz
=
modfile
->
m_MatPosition
.
z
;
double
locz
=
modfile
->
m_MatPosition
.
z
;
double
lrot
=
modfile
->
m_MatRotation
.
z
;
bool
top
=
(
aModule
->
GetLayer
()
==
LAYER_N_BACK
)
?
false
:
true
;
bool
top
=
(
aModule
->
GetLayer
()
==
LAYER_N_BACK
)
?
false
:
true
;
...
@@ -348,12 +387,12 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
...
@@ -348,12 +387,12 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
RotatePoint
(
&
locx
,
&
locy
,
aModule
->
GetOrientation
()
);
RotatePoint
(
&
locx
,
&
locy
,
aModule
->
GetOrientation
()
);
locy
=
-
locy
;
locy
=
-
locy
;
}
}
if
(
!
top
)
if
(
!
top
)
{
{
RotatePoint
(
&
locx
,
&
locy
,
aModule
->
GetOrientation
()
);
RotatePoint
(
&
locx
,
&
locy
,
aModule
->
GetOrientation
()
);
locy
=
-
locy
;
locy
=
-
locy
;
rotz
-=
modfile
->
m_MatRotation
.
z
;
rotz
=
180.0
-
rotz
;
rotz
=
180.0
-
rotz
;
if
(
rotz
>=
360.0
)
if
(
rotz
>=
360.0
)
...
@@ -363,10 +402,97 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
...
@@ -363,10 +402,97 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
while
(
rotz
<=
-
360.0
)
rotz
+=
360.0
;
while
(
rotz
<=
-
360.0
)
rotz
+=
360.0
;
}
}
locx
+=
aModule
->
GetPosition
().
x
*
scale
+
dx
;
if
(
comp
==
NULL
)
locy
+=
-
aModule
->
GetPosition
().
y
*
scale
+
dy
;
comp
=
aIDFBoard
.
FindComponent
(
refdes
)
;
aIDFBoard
.
PlaceComponent
(
modfile
->
GetShape3DName
(),
refdes
,
locx
,
locy
,
locz
,
rotz
,
top
);
if
(
comp
==
NULL
)
{
comp
=
new
IDF3_COMPONENT
(
&
aIDFBoard
);
if
(
comp
==
NULL
)
throw
(
std
::
runtime_error
(
aIDFBoard
.
GetError
()
)
);
comp
->
SetRefDes
(
refdes
);
if
(
top
)
comp
->
SetPosition
(
aModule
->
GetPosition
().
x
*
scale
+
dx
,
-
aModule
->
GetPosition
().
y
*
scale
+
dy
,
rotz
,
IDF3
::
LYR_TOP
);
else
comp
->
SetPosition
(
aModule
->
GetPosition
().
x
*
scale
+
dx
,
-
aModule
->
GetPosition
().
y
*
scale
+
dy
,
rotz
,
IDF3
::
LYR_BOTTOM
);
comp
->
SetPlacement
(
IDF3
::
PS_ECAD
);
aIDFBoard
.
AddComponent
(
comp
);
}
else
{
double
refX
,
refY
,
refA
;
IDF3
::
IDF_LAYER
side
;
if
(
!
comp
->
GetPosition
(
refX
,
refY
,
refA
,
side
)
)
{
// place the item
if
(
top
)
comp
->
SetPosition
(
aModule
->
GetPosition
().
x
*
scale
+
dx
,
-
aModule
->
GetPosition
().
y
*
scale
+
dy
,
rotz
,
IDF3
::
LYR_TOP
);
else
comp
->
SetPosition
(
aModule
->
GetPosition
().
x
*
scale
+
dx
,
-
aModule
->
GetPosition
().
y
*
scale
+
dy
,
rotz
,
IDF3
::
LYR_BOTTOM
);
}
else
{
// check that the retrieved component matches this one
refX
=
refX
-
(
aModule
->
GetPosition
().
x
*
scale
+
dx
);
refY
=
refY
-
(
-
aModule
->
GetPosition
().
y
*
scale
+
dy
);
refA
=
refA
-
rotz
;
refA
*=
refA
;
refX
*=
refX
;
refY
*=
refY
;
refX
+=
refY
;
// conditions: same side, X,Y coordinates within 10 microns,
// angle within 0.01 degree
if
(
(
top
&&
side
==
IDF3
::
LYR_BOTTOM
)
||
(
!
top
&&
side
==
IDF3
::
LYR_TOP
)
||
(
refA
>
0.0001
)
||
(
refX
>
0.0001
)
)
{
comp
->
GetPosition
(
refX
,
refY
,
refA
,
side
);
std
::
ostringstream
ostr
;
ostr
<<
"* "
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
"* conflicting Reference Designator '"
<<
refdes
<<
"'
\n
"
;
ostr
<<
"* X loc: "
<<
(
aModule
->
GetPosition
().
x
*
scale
+
dx
);
ostr
<<
" vs. "
<<
refX
<<
"
\n
"
;
ostr
<<
"* Y loc: "
<<
(
-
aModule
->
GetPosition
().
y
*
scale
+
dy
);
ostr
<<
" vs. "
<<
refY
<<
"
\n
"
;
ostr
<<
"* angle: "
<<
rotz
;
ostr
<<
" vs. "
<<
refA
<<
"
\n
"
;
if
(
top
)
ostr
<<
"* TOP vs. "
;
else
ostr
<<
"* BOTTOM vs. "
;
if
(
side
==
IDF3
::
LYR_TOP
)
ostr
<<
"TOP"
;
else
ostr
<<
"BOTTOM"
;
throw
(
std
::
runtime_error
(
ostr
.
str
()
)
);
}
}
}
// create the local data ...
IDF3_COMP_OUTLINE_DATA
*
data
=
new
IDF3_COMP_OUTLINE_DATA
(
comp
,
outline
);
data
->
SetOffsets
(
locx
,
locy
,
locz
,
lrot
);
comp
->
AddOutlineData
(
data
);
}
}
return
;
return
;
...
@@ -378,21 +504,45 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
...
@@ -378,21 +504,45 @@ static void idf_export_module( BOARD* aPcb, MODULE* aModule,
* generates IDFv3 compliant board (*.emn) and library (*.emp)
* generates IDFv3 compliant board (*.emn) and library (*.emp)
* files representing the user's PCB design.
* files representing the user's PCB design.
*/
*/
bool
Export_IDF3
(
BOARD
*
aPcb
,
const
wxString
&
aFullFileName
,
double
aUseThou
)
bool
Export_IDF3
(
BOARD
*
aPcb
,
const
wxString
&
aFullFileName
,
bool
aUseThou
)
{
{
IDF
_BOARD
idfBoard
;
IDF
3_BOARD
idfBoard
(
IDF3
::
CAD_ELEC
)
;
SetLocaleTo_C_standard
();
SetLocaleTo_C_standard
();
try
bool
ok
=
true
;
double
scale
=
1e-6
;
// we must scale internal units to mm for IDF
IDF3
::
IDF_UNIT
idfUnit
;
if
(
aUseThou
)
{
idfUnit
=
IDF3
::
UNIT_THOU
;
idfBoard
.
SetUserPrecision
(
1
);
}
else
{
{
idfBoard
.
Setup
(
aPcb
->
GetFileName
(),
aFullFileName
,
aUseThou
,
idfUnit
=
IDF3
::
UNIT_MM
;
aPcb
->
GetDesignSettings
().
GetBoardThickness
()
);
idfBoard
.
SetUserPrecision
(
5
);
}
wxFileName
brdName
=
aPcb
->
GetFileName
();
idfBoard
.
SetUserScale
(
scale
);
idfBoard
.
SetBoardThickness
(
aPcb
->
GetDesignSettings
().
GetBoardThickness
()
*
scale
);
idfBoard
.
SetBoardName
(
TO_UTF8
(
brdName
.
GetFullName
()
)
);
idfBoard
.
SetBoardVersion
(
0
);
idfBoard
.
SetLibraryVersion
(
0
);
std
::
ostringstream
ostr
;
ostr
<<
"Created by KiCad "
<<
TO_UTF8
(
GetBuildVersion
()
);
idfBoard
.
SetIDFSource
(
ostr
.
str
()
);
try
{
// set up the global offsets
// set up the global offsets
EDA_RECT
bbox
=
aPcb
->
ComputeBoundingBox
(
true
);
EDA_RECT
bbox
=
aPcb
->
ComputeBoundingBox
(
true
);
idfBoard
.
Set
Offset
(
-
bbox
.
Centre
().
x
*
idfBoard
.
GetScale
()
,
idfBoard
.
Set
UserOffset
(
-
bbox
.
Centre
().
x
*
scale
,
bbox
.
Centre
().
y
*
idfBoard
.
GetScale
()
);
bbox
.
Centre
().
y
*
scale
);
// Export the board outline
// Export the board outline
idf_export_outline
(
aPcb
,
idfBoard
);
idf_export_outline
(
aPcb
,
idfBoard
);
...
@@ -401,15 +551,32 @@ bool Export_IDF3( BOARD* aPcb, const wxString& aFullFileName, double aUseThou )
...
@@ -401,15 +551,32 @@ bool Export_IDF3( BOARD* aPcb, const wxString& aFullFileName, double aUseThou )
for
(
MODULE
*
module
=
aPcb
->
m_Modules
;
module
!=
0
;
module
=
module
->
Next
()
)
for
(
MODULE
*
module
=
aPcb
->
m_Modules
;
module
!=
0
;
module
=
module
->
Next
()
)
idf_export_module
(
aPcb
,
module
,
idfBoard
);
idf_export_module
(
aPcb
,
module
,
idfBoard
);
idfBoard
.
Finish
();
if
(
!
idfBoard
.
WriteFile
(
aFullFileName
,
idfUnit
,
false
)
)
{
wxString
msg
;
msg
<<
_
(
"IDF Export Failed:
\n
"
)
<<
FROM_UTF8
(
idfBoard
.
GetError
().
c_str
()
);
wxMessageBox
(
msg
);
ok
=
false
;
}
}
}
catch
(
const
IO_ERROR
&
ioe
)
catch
(
const
IO_ERROR
&
ioe
)
{
{
wxLogDebug
(
wxT
(
"An error occurred attemping export to IDFv3.
\n\n
Error: %s"
),
wxString
msg
;
GetChars
(
ioe
.
errorText
)
);
msg
<<
_
(
"IDF Export Failed:
\n
"
)
<<
ioe
.
errorText
;
wxMessageBox
(
msg
);
ok
=
false
;
}
catch
(
std
::
exception
&
e
)
{
wxString
msg
;
msg
<<
_
(
"IDF Export Failed:
\n
"
)
<<
FROM_UTF8
(
e
.
what
()
);
wxMessageBox
(
msg
);
ok
=
false
;
}
}
SetLocaleTo_Default
();
SetLocaleTo_Default
();
return
true
;
return
ok
;
}
}
pcbnew/exporters/idf.cpp
deleted
100644 → 0
View file @
60a86853
/**
* file: idf.cpp
*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2013-2014 Cirilo Bernardo
*
* 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
*/
// TODO: Consider using different precision formats for THOU vs MM output
// Keep in mind that THOU cannot represent MM very well although MM can
// represent 1 THOU with 4 decimal places. For modern manufacturing we
// are interested in a resolution of about 0.1 THOU.
#include <list>
#include <string>
#include <iostream>
#include <fstream>
#include <sstream>
#include <algorithm>
#include <cstdio>
#include <cmath>
#include <ctime>
#include <cctype>
#include <strings.h>
#include <pgm_base.h>
#include <wx/config.h>
#include <wx/file.h>
#include <wx/filename.h>
#include <macros.h>
#include <richio.h>
#include <idf.h>
#include <build_version.h>
// minimum drill diameter (nanometers) - 10000 is a 0.01mm drill
#define IDF_MIN_DIA ( 10000.0 )
// minimum board thickness; this is about 0.012mm (0.5 mils)
// which is about the thickness of a single kapton layer typically
// used in a flexible design.
#define IDF_MIN_BRD_THICKNESS (12000)
// START: a few routines to help IDF_LIB but which may be of general use in the future
// as IDF support develops
// fetch a line from the given input file and trim the ends
static
bool
FetchIDFLine
(
std
::
ifstream
&
aModel
,
std
::
string
&
aLine
,
bool
&
isComment
);
// extract an IDF string and move the index to point to the character after the substring
static
bool
GetIDFString
(
const
std
::
string
&
aLine
,
std
::
string
&
aIDFString
,
bool
&
hasQuotes
,
int
&
aIndex
);
// END: IDF_LIB helper routines
IDF_DRILL_DATA
::
IDF_DRILL_DATA
(
double
aDrillDia
,
double
aPosX
,
double
aPosY
,
IDF3
::
KEY_PLATING
aPlating
,
const
std
::
string
aRefDes
,
const
std
::
string
aHoleType
,
IDF3
::
KEY_OWNER
aOwner
)
{
if
(
aDrillDia
<
0.3
)
dia
=
0.3
;
else
dia
=
aDrillDia
;
x
=
aPosX
;
y
=
aPosY
;
plating
=
aPlating
;
if
(
!
aRefDes
.
compare
(
"BOARD"
)
)
{
kref
=
IDF3
::
BOARD
;
}
else
if
(
aRefDes
.
empty
()
||
!
aRefDes
.
compare
(
"NOREFDES"
)
)
{
kref
=
IDF3
::
NOREFDES
;
}
else
if
(
!
aRefDes
.
compare
(
"PANEL"
)
)
{
kref
=
IDF3
::
PANEL
;
}
else
{
kref
=
IDF3
::
REFDES
;
refdes
=
aRefDes
;
}
if
(
!
aHoleType
.
compare
(
"PIN"
)
)
{
khole
=
IDF3
::
PIN
;
}
else
if
(
!
aHoleType
.
compare
(
"VIA"
)
)
{
khole
=
IDF3
::
VIA
;
}
else
if
(
aHoleType
.
empty
()
||
!
aHoleType
.
compare
(
"MTG"
)
)
{
khole
=
IDF3
::
MTG
;
}
else
if
(
!
aHoleType
.
compare
(
"TOOL"
)
)
{
khole
=
IDF3
::
TOOL
;
}
else
{
khole
=
IDF3
::
OTHER
;
holetype
=
aHoleType
;
}
owner
=
aOwner
;
}
// IDF_DRILL_DATA::IDF_DRILL_DATA( ... )
bool
IDF_DRILL_DATA
::
Write
(
FILE
*
aLayoutFile
)
{
// TODO: check stream integrity and return 'false' as appropriate
if
(
!
aLayoutFile
)
return
false
;
std
::
string
holestr
;
std
::
string
refstr
;
std
::
string
ownstr
;
std
::
string
pltstr
;
switch
(
khole
)
{
case
IDF3
:
:
PIN
:
holestr
=
"PIN"
;
break
;
case
IDF3
:
:
VIA
:
holestr
=
"VIA"
;
break
;
case
IDF3
:
:
TOOL
:
holestr
=
"TOOL"
;
break
;
case
IDF3
:
:
OTHER
:
holestr
=
"
\"
"
+
holetype
+
"
\"
"
;
break
;
default
:
holestr
=
"MTG"
;
break
;
}
switch
(
kref
)
{
case
IDF3
:
:
BOARD
:
refstr
=
"BOARD"
;
break
;
case
IDF3
:
:
PANEL
:
refstr
=
"PANEL"
;
break
;
case
IDF3
:
:
REFDES
:
refstr
=
"
\"
"
+
refdes
+
"
\"
"
;
break
;
default
:
refstr
=
"NOREFDES"
;
break
;
}
if
(
plating
==
IDF3
::
PTH
)
pltstr
=
"PTH"
;
else
pltstr
=
"NPTH"
;
switch
(
owner
)
{
case
IDF3
:
:
MCAD
:
ownstr
=
"MCAD"
;
break
;
case
IDF3
:
:
ECAD
:
ownstr
=
"ECAD"
;
break
;
default
:
ownstr
=
"UNOWNED"
;
}
fprintf
(
aLayoutFile
,
"%.3f %.5f %.5f %s %s %s %s
\n
"
,
dia
,
x
,
y
,
pltstr
.
c_str
(),
refstr
.
c_str
(),
holestr
.
c_str
(),
ownstr
.
c_str
()
);
return
true
;
}
// IDF_DRILL_DATA::Write( aLayoutFile )
IDF_BOARD
::
IDF_BOARD
()
{
refdesIndex
=
0
;
outlineIndex
=
0
;
scale
=
1e-6
;
boardThickness
=
1.6
;
// default to 1.6mm thick boards
useThou
=
false
;
// by default we want mm output
hasBrdOutlineHdr
=
false
;
layoutFile
=
NULL
;
libFile
=
NULL
;
}
IDF_BOARD
::~
IDF_BOARD
()
{
// simply close files if they are open; do not attempt
// anything else since a previous exception may have left
// data in a bad state.
if
(
layoutFile
!=
NULL
)
{
fclose
(
layoutFile
);
layoutFile
=
NULL
;
}
if
(
libFile
!=
NULL
)
{
fclose
(
libFile
);
libFile
=
NULL
;
}
}
bool
IDF_BOARD
::
Setup
(
wxString
aBoardName
,
wxString
aFullFileName
,
bool
aUseThou
,
int
aBoardThickness
)
{
if
(
aBoardThickness
<
IDF_MIN_BRD_THICKNESS
)
return
false
;
if
(
aUseThou
)
{
useThou
=
true
;
scale
=
1e-3
/
25.4
;
}
else
{
useThou
=
false
;
scale
=
1e-6
;
}
boardThickness
=
aBoardThickness
*
scale
;
wxFileName
brdname
(
aBoardName
);
wxFileName
idfname
(
aFullFileName
);
// open the layout file
idfname
.
SetExt
(
wxT
(
"emn"
)
);
layoutFile
=
wxFopen
(
aFullFileName
,
wxT
(
"wt"
)
);
if
(
layoutFile
==
NULL
)
return
false
;
// open the library file
idfname
.
SetExt
(
wxT
(
"emp"
)
);
libFile
=
wxFopen
(
idfname
.
GetFullPath
(),
wxT
(
"wt"
)
);
if
(
libFile
==
NULL
)
{
fclose
(
layoutFile
);
layoutFile
=
NULL
;
return
false
;
}
wxDateTime
tdate
(
time
(
NULL
)
);
fprintf
(
layoutFile
,
".HEADER
\n
"
"BOARD_FILE 3.0
\"
Created by KiCad %s
\"
"
" %.4u/%.2u/%.2u.%.2u:%.2u:%.2u 1
\n
"
"
\"
%s
\"
%s
\n
"
".END_HEADER
\n\n
"
,
TO_UTF8
(
GetBuildVersion
()
),
tdate
.
GetYear
(),
tdate
.
GetMonth
()
+
1
,
tdate
.
GetDay
(),
tdate
.
GetHour
(),
tdate
.
GetMinute
(),
tdate
.
GetSecond
(),
TO_UTF8
(
brdname
.
GetFullName
()
),
useThou
?
"THOU"
:
"MM"
);
fprintf
(
libFile
,
".HEADER
\n
"
"LIBRARY_FILE 3.0
\"
Created by KiCad %s
\"
%.4d/%.2d/%.2d.%.2d:%.2d:%.2d 1
\n
"
".END_HEADER
\n\n
"
,
TO_UTF8
(
GetBuildVersion
()
),
tdate
.
GetYear
(),
tdate
.
GetMonth
()
+
1
,
tdate
.
GetDay
(),
tdate
.
GetHour
(),
tdate
.
GetMinute
(),
tdate
.
GetSecond
()
);
return
true
;
}
bool
IDF_BOARD
::
Finish
(
void
)
{
// Steps to finalize the board and library files:
// 1. (emn) close the BOARD_OUTLINE section
// 2. (emn) write out the DRILLED_HOLES section
// 3. (emp) finalize the library file
// 4. (emn) write out the COMPONENT_PLACEMENT section
if
(
layoutFile
==
NULL
||
libFile
==
NULL
)
return
false
;
// Finalize the board outline section
fprintf
(
layoutFile
,
".END_BOARD_OUTLINE
\n\n
"
);
// Write out the drill section
bool
ok
=
WriteDrills
();
// populate the library (*.emp) file and write the
// PLACEMENT section
if
(
ok
)
ok
=
IDFLib
.
WriteFiles
(
layoutFile
,
libFile
);
fclose
(
libFile
);
libFile
=
NULL
;
fclose
(
layoutFile
);
layoutFile
=
NULL
;
return
ok
;
}
bool
IDF_BOARD
::
AddOutline
(
IDF_OUTLINE
&
aOutline
)
{
if
(
!
layoutFile
)
return
false
;
// TODO: check the stream integrity
std
::
list
<
IDF_SEGMENT
*>::
iterator
bo
;
std
::
list
<
IDF_SEGMENT
*>::
iterator
eo
;
if
(
!
hasBrdOutlineHdr
)
{
fprintf
(
layoutFile
,
".BOARD_OUTLINE ECAD
\n
%.5f
\n
"
,
boardThickness
);
hasBrdOutlineHdr
=
true
;
}
if
(
aOutline
.
size
()
==
1
)
{
if
(
!
aOutline
.
front
()
->
IsCircle
()
)
return
false
;
// this is a bad outline
// NOTE: a circle always has an angle of 360, never -360,
// otherwise SolidWorks chokes on the file.
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
aOutline
.
front
()
->
startPoint
.
x
,
aOutline
.
front
()
->
startPoint
.
y
);
fprintf
(
layoutFile
,
"%d %.5f %.5f 360
\n
"
,
outlineIndex
,
aOutline
.
front
()
->
endPoint
.
x
,
aOutline
.
front
()
->
endPoint
.
y
);
++
outlineIndex
;
return
true
;
}
// ensure that the very last point is the same as the very first point
aOutline
.
back
()
->
endPoint
=
aOutline
.
front
()
->
startPoint
;
// check if we must reverse things
if
(
(
aOutline
.
IsCCW
()
&&
(
outlineIndex
>
0
)
)
||
(
(
!
aOutline
.
IsCCW
()
)
&&
(
outlineIndex
==
0
)
)
)
{
eo
=
aOutline
.
begin
();
bo
=
aOutline
.
end
();
--
bo
;
// for the first item we write out both points
if
(
aOutline
.
front
()
->
angle
<
MIN_ANG
&&
aOutline
.
front
()
->
angle
>
-
MIN_ANG
)
{
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
aOutline
.
front
()
->
endPoint
.
x
,
aOutline
.
front
()
->
endPoint
.
y
);
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
aOutline
.
front
()
->
startPoint
.
x
,
aOutline
.
front
()
->
startPoint
.
y
);
}
else
{
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
aOutline
.
front
()
->
endPoint
.
x
,
aOutline
.
front
()
->
endPoint
.
y
);
fprintf
(
layoutFile
,
"%d %.5f %.5f %.5f
\n
"
,
outlineIndex
,
aOutline
.
front
()
->
startPoint
.
x
,
aOutline
.
front
()
->
startPoint
.
y
,
-
aOutline
.
front
()
->
angle
);
}
// for all other segments we only write out the start point
while
(
bo
!=
eo
)
{
if
(
(
*
bo
)
->
angle
<
MIN_ANG
&&
(
*
bo
)
->
angle
>
-
MIN_ANG
)
{
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
(
*
bo
)
->
startPoint
.
x
,
(
*
bo
)
->
startPoint
.
y
);
}
else
{
fprintf
(
layoutFile
,
"%d %.5f %.5f %.5f
\n
"
,
outlineIndex
,
(
*
bo
)
->
startPoint
.
x
,
(
*
bo
)
->
startPoint
.
y
,
-
(
*
bo
)
->
angle
);
}
--
bo
;
}
}
else
{
bo
=
aOutline
.
begin
();
eo
=
aOutline
.
end
();
// for the first item we write out both points
if
(
(
*
bo
)
->
angle
<
MIN_ANG
&&
(
*
bo
)
->
angle
>
-
MIN_ANG
)
{
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
(
*
bo
)
->
startPoint
.
x
,
(
*
bo
)
->
startPoint
.
y
);
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
(
*
bo
)
->
endPoint
.
x
,
(
*
bo
)
->
endPoint
.
y
);
}
else
{
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
(
*
bo
)
->
startPoint
.
x
,
(
*
bo
)
->
startPoint
.
y
);
fprintf
(
layoutFile
,
"%d %.5f %.5f %.5f
\n
"
,
outlineIndex
,
(
*
bo
)
->
endPoint
.
x
,
(
*
bo
)
->
endPoint
.
y
,
(
*
bo
)
->
angle
);
}
++
bo
;
// for all other segments we only write out the last point
while
(
bo
!=
eo
)
{
if
(
(
*
bo
)
->
angle
<
MIN_ANG
&&
(
*
bo
)
->
angle
>
-
MIN_ANG
)
{
fprintf
(
layoutFile
,
"%d %.5f %.5f 0
\n
"
,
outlineIndex
,
(
*
bo
)
->
endPoint
.
x
,
(
*
bo
)
->
endPoint
.
y
);
}
else
{
fprintf
(
layoutFile
,
"%d %.5f %.5f %.5f
\n
"
,
outlineIndex
,
(
*
bo
)
->
endPoint
.
x
,
(
*
bo
)
->
endPoint
.
y
,
(
*
bo
)
->
angle
);
}
++
bo
;
}
}
++
outlineIndex
;
return
true
;
}
bool
IDF_BOARD
::
AddDrill
(
double
dia
,
double
x
,
double
y
,
IDF3
::
KEY_PLATING
plating
,
const
std
::
string
refdes
,
const
std
::
string
holeType
,
IDF3
::
KEY_OWNER
owner
)
{
if
(
dia
<
IDF_MIN_DIA
*
scale
)
return
false
;
IDF_DRILL_DATA
*
dp
=
new
IDF_DRILL_DATA
(
dia
,
x
,
y
,
plating
,
refdes
,
holeType
,
owner
);
drills
.
push_back
(
dp
);
return
true
;
}
bool
IDF_BOARD
::
AddSlot
(
double
aWidth
,
double
aLength
,
double
aOrientation
,
double
aX
,
double
aY
)
{
if
(
aWidth
<
IDF_MIN_DIA
*
scale
)
return
false
;
if
(
aLength
<
IDF_MIN_DIA
*
scale
)
return
false
;
IDF_POINT
c
[
2
];
// centers
IDF_POINT
pt
[
4
];
double
a1
=
aOrientation
/
180.0
*
M_PI
;
double
a2
=
a1
+
M_PI2
;
double
d1
=
aLength
/
2.0
;
double
d2
=
aWidth
/
2.0
;
double
sa1
=
sin
(
a1
);
double
ca1
=
cos
(
a1
);
double
dsa2
=
d2
*
sin
(
a2
);
double
dca2
=
d2
*
cos
(
a2
);
c
[
0
].
x
=
aX
+
d1
*
ca1
;
c
[
0
].
y
=
aY
+
d1
*
sa1
;
c
[
1
].
x
=
aX
-
d1
*
ca1
;
c
[
1
].
y
=
aY
-
d1
*
sa1
;
pt
[
0
].
x
=
c
[
0
].
x
-
dca2
;
pt
[
0
].
y
=
c
[
0
].
y
-
dsa2
;
pt
[
1
].
x
=
c
[
1
].
x
-
dca2
;
pt
[
1
].
y
=
c
[
1
].
y
-
dsa2
;
pt
[
2
].
x
=
c
[
1
].
x
+
dca2
;
pt
[
2
].
y
=
c
[
1
].
y
+
dsa2
;
pt
[
3
].
x
=
c
[
0
].
x
+
dca2
;
pt
[
3
].
y
=
c
[
0
].
y
+
dsa2
;
IDF_OUTLINE
outline
;
// first straight run
IDF_SEGMENT
*
seg
=
new
IDF_SEGMENT
(
pt
[
0
],
pt
[
1
]
);
outline
.
push
(
seg
);
// first 180 degree cap
seg
=
new
IDF_SEGMENT
(
c
[
1
],
pt
[
1
],
-
180.0
,
true
);
outline
.
push
(
seg
);
// final straight run
seg
=
new
IDF_SEGMENT
(
pt
[
2
],
pt
[
3
]
);
outline
.
push
(
seg
);
// final 180 degree cap
seg
=
new
IDF_SEGMENT
(
c
[
0
],
pt
[
3
],
-
180.0
,
true
);
outline
.
push
(
seg
);
return
AddOutline
(
outline
);
}
bool
IDF_BOARD
::
PlaceComponent
(
const
wxString
aComponentFile
,
const
std
::
string
aRefDes
,
double
aXLoc
,
double
aYLoc
,
double
aZLoc
,
double
aRotation
,
bool
isOnTop
)
{
return
IDFLib
.
PlaceComponent
(
aComponentFile
,
aRefDes
,
aXLoc
,
aYLoc
,
aZLoc
,
aRotation
,
isOnTop
);
}
std
::
string
IDF_BOARD
::
GetRefDes
(
void
)
{
std
::
ostringstream
ostr
;
ostr
<<
"NOREFDES_"
<<
refdesIndex
++
;
return
ostr
.
str
();
}
bool
IDF_BOARD
::
WriteDrills
(
void
)
{
if
(
!
layoutFile
)
return
false
;
// TODO: check the stream integrity and return false as appropriate
if
(
drills
.
empty
()
)
return
true
;
fprintf
(
layoutFile
,
".DRILLED_HOLES
\n
"
);
std
::
list
<
class
IDF_DRILL_DATA
*>::
iterator
ds
=
drills
.
begin
();
std
::
list
<
class
IDF_DRILL_DATA
*>::
iterator
de
=
drills
.
end
();
while
(
ds
!=
de
)
{
if
(
!
(
*
ds
)
->
Write
(
layoutFile
)
)
return
false
;
++
ds
;
}
fprintf
(
layoutFile
,
".END_DRILLED_HOLES
\n
"
);
return
true
;
}
double
IDF_BOARD
::
GetScale
(
void
)
{
return
scale
;
}
void
IDF_BOARD
::
SetOffset
(
double
x
,
double
y
)
{
offsetX
=
x
;
offsetY
=
y
;
}
void
IDF_BOARD
::
GetOffset
(
double
&
x
,
double
&
y
)
{
x
=
offsetX
;
y
=
offsetY
;
}
IDF_LIB
::~
IDF_LIB
()
{
while
(
!
components
.
empty
()
)
{
delete
components
.
back
();
components
.
pop_back
();
}
}
bool
IDF_LIB
::
writeLib
(
FILE
*
aLibFile
)
{
if
(
!
aLibFile
)
return
false
;
// TODO: check stream integrity and return false as appropriate
// export models
std
::
list
<
IDF_COMP
*
>::
const_iterator
mbeg
=
components
.
begin
();
std
::
list
<
IDF_COMP
*
>::
const_iterator
mend
=
components
.
end
();
while
(
mbeg
!=
mend
)
{
if
(
!
(
*
mbeg
)
->
WriteLib
(
aLibFile
)
)
return
false
;
++
mbeg
;
}
libWritten
=
true
;
return
true
;
}
bool
IDF_LIB
::
writeBrd
(
FILE
*
aLayoutFile
)
{
if
(
!
aLayoutFile
||
!
libWritten
)
return
false
;
if
(
components
.
empty
()
)
return
true
;
// TODO: check stream integrity and return false as appropriate
// write out the board placement information
std
::
list
<
IDF_COMP
*
>::
const_iterator
mbeg
=
components
.
begin
();
std
::
list
<
IDF_COMP
*
>::
const_iterator
mend
=
components
.
end
();
fprintf
(
aLayoutFile
,
"
\n
.PLACEMENT
\n
"
);
while
(
mbeg
!=
mend
)
{
if
(
!
(
*
mbeg
)
->
WritePlacement
(
aLayoutFile
)
)
return
false
;
++
mbeg
;
}
fprintf
(
aLayoutFile
,
".END_PLACEMENT
\n
"
);
return
true
;
}
bool
IDF_LIB
::
WriteFiles
(
FILE
*
aLayoutFile
,
FILE
*
aLibFile
)
{
if
(
!
aLayoutFile
||
!
aLibFile
)
return
false
;
libWritten
=
false
;
regOutlines
.
clear
();
if
(
!
writeLib
(
aLibFile
)
)
return
false
;
return
writeBrd
(
aLayoutFile
);
}
bool
IDF_LIB
::
RegisterOutline
(
const
std
::
string
aGeomPartString
)
{
std
::
set
<
std
::
string
>::
const_iterator
it
=
regOutlines
.
find
(
aGeomPartString
);
if
(
it
!=
regOutlines
.
end
()
)
return
true
;
regOutlines
.
insert
(
aGeomPartString
);
return
false
;
}
bool
IDF_LIB
::
PlaceComponent
(
const
wxString
aComponentFile
,
const
std
::
string
aRefDes
,
double
aXLoc
,
double
aYLoc
,
double
aZLoc
,
double
aRotation
,
bool
isOnTop
)
{
IDF_COMP
*
comp
=
new
IDF_COMP
(
this
);
if
(
comp
==
NULL
)
{
std
::
cerr
<<
"IDF_LIB: *ERROR* could not allocate memory for a component
\n
"
;
return
false
;
}
components
.
push_back
(
comp
);
if
(
!
comp
->
PlaceComponent
(
aComponentFile
,
aRefDes
,
aXLoc
,
aYLoc
,
aZLoc
,
aRotation
,
isOnTop
)
)
{
std
::
cerr
<<
"IDF_LIB: file does not exist (or is symlink):
\n
"
;
std
::
cerr
<<
" FILE: "
<<
TO_UTF8
(
aComponentFile
)
<<
"
\n
"
;
return
false
;
}
return
true
;
}
IDF_COMP
::
IDF_COMP
(
IDF_LIB
*
aParent
)
{
parent
=
aParent
;
}
bool
IDF_COMP
::
PlaceComponent
(
const
wxString
aComponentFile
,
const
std
::
string
aRefDes
,
double
aXLoc
,
double
aYLoc
,
double
aZLoc
,
double
aRotation
,
bool
isOnTop
)
{
componentFile
=
aComponentFile
;
refdes
=
aRefDes
;
if
(
refdes
.
empty
()
||
!
refdes
.
compare
(
"~"
)
||
!
refdes
.
compare
(
"0"
)
)
refdes
=
"NOREFDES"
;
loc_x
=
aXLoc
;
loc_y
=
aYLoc
;
loc_z
=
aZLoc
;
rotation
=
aRotation
;
top
=
isOnTop
;
wxString
fname
=
wxExpandEnvVars
(
aComponentFile
);
if
(
!
wxFileName
::
FileExists
(
fname
)
)
return
false
;
componentFile
=
fname
;
return
true
;
}
bool
IDF_COMP
::
WritePlacement
(
FILE
*
aLayoutFile
)
{
if
(
aLayoutFile
==
NULL
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* WritePlacement() invoked with aLayoutFile = NULL
\n
"
;
return
false
;
}
if
(
parent
==
NULL
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* no valid pointer
\n
"
;
return
false
;
}
if
(
componentFile
.
empty
()
)
{
std
::
cerr
<<
"IDF_COMP: *BUG* empty componentFile name in WritePlacement()
\n
"
;
return
false
;
}
if
(
geometry
.
empty
()
&&
partno
.
empty
()
)
{
std
::
cerr
<<
"IDF_COMP: *BUG* geometry and partno strings are empty in WritePlacement()
\n
"
;
return
false
;
}
// TODO: monitor stream integrity and respond accordingly
// PLACEMENT, RECORD 2:
fprintf
(
aLayoutFile
,
"
\"
%s
\"
\"
%s
\"
\"
%s
\"\n
"
,
geometry
.
c_str
(),
partno
.
c_str
(),
refdes
.
c_str
()
);
// PLACEMENT, RECORD 3:
if
(
rotation
>=
-
MIN_ANG
&&
rotation
<=
-
MIN_ANG
)
{
fprintf
(
aLayoutFile
,
"%.6f %.6f %.6f 0 %s ECAD
\n
"
,
loc_x
,
loc_y
,
loc_z
,
top
?
"TOP"
:
"BOTTOM"
);
}
else
{
fprintf
(
aLayoutFile
,
"%.6f %.6f %.6f %.3f %s ECAD
\n
"
,
loc_x
,
loc_y
,
loc_z
,
rotation
,
top
?
"TOP"
:
"BOTTOM"
);
}
return
true
;
}
bool
IDF_COMP
::
WriteLib
(
FILE
*
aLibFile
)
{
// 1. parse the file for the .ELECTRICAL or .MECHANICAL section
// and extract the Geometry and PartNumber strings
// 2. Register the name; check if it already exists
// 3. parse the rest of the file until .END_ELECTRICAL or
// .END_MECHANICAL; validate that each entry conforms
// to a valid outline
// 4. write lines to library file
//
// NOTE on parsing (the order matters):
// + store each line which begins with '#'
// + strip blanks from both ends of the line
// + drop each blank line
// + the first non-blank non-comment line must be
// .ELECTRICAL or .MECHANICAL (as per spec, case does not matter)
// + the first non-blank line after RECORD 1 must be RECORD 2
// + following RECORD 2, only blank lines, valid outline entries,
// and .END_{MECHANICAL,ELECTRICAL} are allowed
// + only a single outline may be specified; the order may be
// CW or CCW.
// + all valid lines are stored and written to the library file
//
// return: false if we do could not write model data; we may return
// true even if we could not read an IDF file for some reason, provided
// that the default model was written. In such a case, warnings will be
// written to stderr.
if
(
aLibFile
==
NULL
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* WriteLib() invoked with aLibFile = NULL
\n
"
;
return
false
;
}
if
(
parent
==
NULL
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* no valid pointer
\n
"
;
return
false
;
}
if
(
componentFile
.
empty
()
)
{
std
::
cerr
<<
"IDF_COMP: *BUG* empty componentFile name in WriteLib()
\n
"
;
return
false
;
}
std
::
list
<
std
::
string
>
records
;
std
::
ifstream
model
;
std
::
string
fname
=
TO_UTF8
(
componentFile
);
model
.
open
(
fname
.
c_str
(),
std
::
ios_base
::
in
);
if
(
!
model
.
is_open
()
)
{
std
::
cerr
<<
"* IDF EXPORT: could not open file "
<<
fname
<<
"
\n
"
;
return
substituteComponent
(
aLibFile
);
}
std
::
string
entryType
;
// will be one of ELECTRICAL or MECHANICAL
std
::
string
endMark
;
// will be one of .END_ELECTRICAL or .END_MECHANICAL
std
::
string
iline
;
// the input line
int
state
=
1
;
bool
isComment
;
// true if a line just read in is a comment line
bool
isNewItem
=
false
;
// true if the outline is a previously unsaved IDF item
// some vars for parsing record 3
int
loopIdx
=
-
1
;
// direction of points in outline (0=CW, 1=CCW, -1=no points yet)
double
firstX
;
double
firstY
;
bool
lineClosed
=
false
;
// true when outline has been closed; only one outline is permitted
while
(
state
)
{
while
(
!
FetchIDFLine
(
model
,
iline
,
isComment
)
&&
model
.
good
()
);
if
(
!
model
.
good
()
)
{
// this should not happen; we should at least
// have encountered the .END_ statement;
// however, we shall make a concession if the
// last line is an .END_ statement which had
// not been correctly terminated
if
(
!
endMark
.
empty
()
&&
!
strncasecmp
(
iline
.
c_str
(),
endMark
.
c_str
(),
15
)
)
{
std
::
cerr
<<
"IDF EXPORT: *WARNING* IDF file is not properly terminated
\n
"
;
std
::
cerr
<<
"* FILE: "
<<
fname
<<
"
\n
"
;
records
.
push_back
(
endMark
);
break
;
}
std
::
cerr
<<
"IDF EXPORT: *ERROR* faulty IDF file
\n
"
;
std
::
cerr
<<
"* FILE: "
<<
fname
<<
"
\n
"
;
return
substituteComponent
(
aLibFile
);
}
switch
(
state
)
{
case
1
:
// accept comment lines, .ELECTRICAL, or .MECHANICAL;
// all others are simply ignored
if
(
isComment
)
{
records
.
push_back
(
iline
);
break
;
}
if
(
!
strncasecmp
(
iline
.
c_str
(),
".electrical"
,
11
)
)
{
entryType
=
".ELECTRICAL"
;
endMark
=
".END_ELECTRICAL"
;
records
.
push_back
(
entryType
);
state
=
2
;
break
;
}
if
(
!
strncasecmp
(
iline
.
c_str
(),
".mechanical"
,
11
)
)
{
entryType
=
".MECHANICAL"
;
endMark
=
".END_MECHANICAL"
;
records
.
push_back
(
entryType
);
state
=
2
;
break
;
}
break
;
case
2
:
// accept only a RECORD 2 compliant line;
// anything else constitutes a malformed IDF file
if
(
isComment
)
{
std
::
cerr
<<
"IDF EXPORT: bad IDF file
\n
"
;
std
::
cerr
<<
"* LINE: "
<<
iline
<<
"
\n
"
;
std
::
cerr
<<
"* FILE: "
<<
fname
<<
"
\n
"
;
std
::
cerr
<<
"* REASON: comment within "
<<
entryType
<<
" section
\n
"
;
model
.
close
();
return
substituteComponent
(
aLibFile
);
}
if
(
!
parseRec2
(
iline
,
isNewItem
)
)
{
std
::
cerr
<<
"IDF EXPORT: bad IDF file
\n
"
;
std
::
cerr
<<
"* LINE: "
<<
iline
<<
"
\n
"
;
std
::
cerr
<<
"* FILE: "
<<
fname
<<
"
\n
"
;
std
::
cerr
<<
"* REASON: expecting RECORD 2 of "
<<
entryType
<<
" section
\n
"
;
model
.
close
();
return
substituteComponent
(
aLibFile
);
}
if
(
isNewItem
)
{
records
.
push_back
(
iline
);
state
=
3
;
}
else
{
model
.
close
();
return
true
;
}
break
;
case
3
:
// accept outline entries or end of section
if
(
isComment
)
{
std
::
cerr
<<
"IDF EXPORT: bad IDF file
\n
"
;
std
::
cerr
<<
"* LINE: "
<<
iline
<<
"
\n
"
;
std
::
cerr
<<
"* FILE: "
<<
fname
<<
"
\n
"
;
std
::
cerr
<<
"* REASON: comment within "
<<
entryType
<<
" section
\n
"
;
model
.
close
();
return
substituteComponent
(
aLibFile
);
}
if
(
!
strncasecmp
(
iline
.
c_str
(),
endMark
.
c_str
(),
15
)
)
{
records
.
push_back
(
endMark
);
state
=
0
;
break
;
}
if
(
lineClosed
)
{
// there should be no further points
std
::
cerr
<<
"IDF EXPORT: faulty IDF file
\n
"
;
std
::
cerr
<<
"* LINE: "
<<
iline
<<
"
\n
"
;
std
::
cerr
<<
"* FILE: "
<<
fname
<<
"
\n
"
;
std
::
cerr
<<
"* REASON: more than 1 outline in "
<<
entryType
<<
" section
\n
"
;
model
.
close
();
return
substituteComponent
(
aLibFile
);
}
if
(
!
parseRec3
(
iline
,
loopIdx
,
firstX
,
firstY
,
lineClosed
)
)
{
std
::
cerr
<<
"IDF EXPORT: unexpected line in IDF file
\n
"
;
std
::
cerr
<<
"* LINE: "
<<
iline
<<
"
\n
"
;
std
::
cerr
<<
"* FILE: "
<<
fname
<<
"
\n
"
;
model
.
close
();
return
substituteComponent
(
aLibFile
);
}
records
.
push_back
(
iline
);
break
;
default
:
std
::
cerr
<<
"IDF EXPORT: BUG in "
<<
__FUNCTION__
<<
": unexpected state
\n
"
;
model
.
close
();
return
substituteComponent
(
aLibFile
);
break
;
}
// switch( state )
}
// while( state )
model
.
close
();
if
(
!
lineClosed
)
{
std
::
cerr
<<
"IDF EXPORT: component outline not closed
\n
"
;
std
::
cerr
<<
"* FILE: "
<<
fname
<<
"
\n
"
;
return
substituteComponent
(
aLibFile
);
}
std
::
list
<
std
::
string
>::
iterator
lbeg
=
records
.
begin
();
std
::
list
<
std
::
string
>::
iterator
lend
=
records
.
end
();
// TODO: check stream integrity
while
(
lbeg
!=
lend
)
{
fprintf
(
aLibFile
,
"%s
\n
"
,
lbeg
->
c_str
()
);
++
lbeg
;
}
fprintf
(
aLibFile
,
"
\n
"
);
return
true
;
}
bool
IDF_COMP
::
substituteComponent
(
FILE
*
aLibFile
)
{
// the component outline does not exist or could not be
// read; substitute a placeholder
// TODO: check the stream integrity
geometry
=
"NOGEOM"
;
partno
=
"NOPART"
;
if
(
parent
->
RegisterOutline
(
"NOGEOM_NOPART"
)
)
return
true
;
// Create a star shape 5mm high with points on 5 and 2.5 mm circles
fprintf
(
aLibFile
,
".ELECTRICAL
\n
"
);
fprintf
(
aLibFile
,
"
\"
NOGEOM
\"
\"
NOPART
\"
MM 5
\n
"
);
double
a
,
da
,
x
,
y
;
da
=
M_PI
/
5.0
;
a
=
da
/
2.0
;
for
(
int
i
=
0
;
i
<
10
;
++
i
)
{
if
(
i
&
1
)
{
x
=
2.5
*
cos
(
a
);
y
=
2.5
*
sin
(
a
);
}
else
{
x
=
1.5
*
cos
(
a
);
y
=
1.5
*
sin
(
a
);
}
a
+=
da
;
fprintf
(
aLibFile
,
"0 %.3f %.3f 0
\n
"
,
x
,
y
);
}
a
=
da
/
2.0
;
x
=
1.5
*
cos
(
a
);
y
=
1.5
*
sin
(
a
);
fprintf
(
aLibFile
,
"0 %.3f %.3f 0
\n
"
,
x
,
y
);
fprintf
(
aLibFile
,
".END_ELECTRICAL
\n\n
"
);
return
true
;
}
bool
IDF_COMP
::
parseRec2
(
const
std
::
string
aLine
,
bool
&
isNewItem
)
{
// RECORD 2:
// + "Geometry Name"
// + "Part Number"
// + MM or THOU
// + height (float)
isNewItem
=
false
;
int
idx
=
0
;
bool
quoted
=
false
;
std
::
string
entry
;
if
(
!
GetIDFString
(
aLine
,
entry
,
quoted
,
idx
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 2 in model file (no Geometry Name entry)
\n
"
;
return
false
;
}
geometry
=
entry
;
if
(
!
GetIDFString
(
aLine
,
entry
,
quoted
,
idx
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 2 in model file (no Part No. entry)
\n
"
;
return
false
;
}
partno
=
entry
;
if
(
geometry
.
empty
()
&&
partno
.
empty
()
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 2 in model file
\n
"
;
std
::
cerr
<<
" Geometry Name and Part Number are both empty.
\n
"
;
return
false
;
}
if
(
!
GetIDFString
(
aLine
,
entry
,
quoted
,
idx
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 2, missing FIELD 3
\n
"
;
return
false
;
}
if
(
strcasecmp
(
"MM"
,
entry
.
c_str
()
)
&&
strcasecmp
(
"THOU"
,
entry
.
c_str
()
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 2, invalid FIELD 3
\"
"
<<
entry
<<
"
\"\n
"
;
return
false
;
}
if
(
!
GetIDFString
(
aLine
,
entry
,
quoted
,
idx
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 2, missing FIELD 4
\n
"
;
return
false
;
}
if
(
quoted
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 2, invalid FIELD 4 (quoted)
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
// ensure that we have a valid value
double
val
;
std
::
stringstream
teststr
;
teststr
<<
entry
;
if
(
!
(
teststr
>>
val
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 2, invalid FIELD 4 (must be numeric)
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
teststr
.
clear
();
teststr
<<
geometry
<<
"_"
<<
partno
;
if
(
!
parent
->
RegisterOutline
(
teststr
.
str
()
)
)
isNewItem
=
true
;
return
true
;
}
bool
IDF_COMP
::
parseRec3
(
const
std
::
string
aLine
,
int
&
aLoopIndex
,
double
&
aX
,
double
&
aY
,
bool
&
aClosed
)
{
// RECORD 3:
// + 0,1 (loop label)
// + X coord (float)
// + Y coord (float)
// + included angle (0 for line, +ang for CCW, -ang for CW, +360 for circle)
//
// notes:
// 1. first entry may not be a circle or arc
// 2. it would be nice, but not essential, to ensure that the
// winding is indeed as specified by the loop label
//
double
x
,
y
,
ang
;
bool
ccw
=
false
;
bool
quoted
=
false
;
int
idx
=
0
;
std
::
string
entry
;
if
(
!
GetIDFString
(
aLine
,
entry
,
quoted
,
idx
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, no data
\n
"
;
return
false
;
}
if
(
quoted
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, FIELD 1 is quoted
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
entry
.
compare
(
"0"
)
&&
entry
.
compare
(
"1"
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, FIELD 1 is invalid (must be 0 or 1)
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
!
entry
.
compare
(
"0"
)
)
ccw
=
true
;
if
(
aLoopIndex
==
0
&&
!
ccw
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, LOOP INDEX changed from 0 to 1
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
aLoopIndex
==
1
&&
ccw
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, LOOP INDEX changed from 1 to 0
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
!
GetIDFString
(
aLine
,
entry
,
quoted
,
idx
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, FIELD 2 does not exist
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
quoted
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, FIELD 2 is quoted
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
std
::
stringstream
tstr
;
tstr
.
str
(
entry
);
if
(
!
(
tstr
>>
x
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, invalid X value in FIELD 2
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
!
GetIDFString
(
aLine
,
entry
,
quoted
,
idx
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, FIELD 3 does not exist
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
quoted
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, FIELD 3 is quoted
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
tstr
.
clear
();
tstr
.
str
(
entry
);
if
(
!
(
tstr
>>
y
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, invalid Y value in FIELD 3
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
!
GetIDFString
(
aLine
,
entry
,
quoted
,
idx
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, FIELD 4 does not exist
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
quoted
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, FIELD 4 is quoted
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
tstr
.
clear
();
tstr
.
str
(
entry
);
if
(
!
(
tstr
>>
ang
)
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, invalid ANGLE value in FIELD 3
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
if
(
aLoopIndex
==
-
1
)
{
// this is the first point; there are some special checks
aLoopIndex
=
ccw
?
0
:
1
;
aX
=
x
;
aY
=
y
;
aClosed
=
false
;
// ensure that the first point is not an arc specification
if
(
ang
<
-
MIN_ANG
||
ang
>
MIN_ANG
)
{
std
::
cerr
<<
"IDF_COMP: *ERROR* invalid RECORD 3, first point has non-zero angle
\n
"
;
std
::
cerr
<<
" LINE: "
<<
aLine
<<
"
\n
"
;
return
false
;
}
}
else
{
// does this close the outline?
if
(
ang
<
0.0
)
ang
=
-
ang
;
ang
-=
360.0
;
if
(
ang
>
-
MIN_ANG
&&
ang
<
MIN_ANG
)
{
// this is a circle; the loop is closed
aClosed
=
true
;
}
else
{
x
=
(
aX
-
x
)
*
(
aX
-
x
);
y
=
(
aY
-
y
)
*
(
aY
-
y
)
+
x
;
if
(
y
<=
1e-6
)
{
// the points are close enough; the loop is closed
aClosed
=
true
;
}
}
}
// NOTE:
// 1. ideally we would ensure that there are no arcs with a radius of 0; this entails
// actively calculating the last point as the previous entry could have been an instruction
// to create an arc. This check is sacrificed in the interest of speed.
// 2. a bad outline can be crafted by giving at least one valid segment and then introducing
// a circle; such a condition is not checked for here in the interest of speed.
// 3. a circle specified with an angle of -360 is invalid, but that condition is not
// tested here.
return
true
;
}
// fetch a line from the given input file and trim the ends
static
bool
FetchIDFLine
(
std
::
ifstream
&
aModel
,
std
::
string
&
aLine
,
bool
&
isComment
)
{
aLine
=
""
;
std
::
getline
(
aModel
,
aLine
);
isComment
=
false
;
// A comment begins with a '#' and must be the first character on the line
if
(
aLine
[
0
]
==
'#'
)
isComment
=
true
;
while
(
!
aLine
.
empty
()
&&
isspace
(
*
aLine
.
begin
()
)
)
aLine
.
erase
(
aLine
.
begin
()
);
while
(
!
aLine
.
empty
()
&&
isspace
(
*
aLine
.
rbegin
()
)
)
aLine
.
erase
(
--
aLine
.
end
()
);
if
(
aLine
.
empty
()
)
return
false
;
return
true
;
}
// extract an IDF string and move the index to point to the character after the substring
static
bool
GetIDFString
(
const
std
::
string
&
aLine
,
std
::
string
&
aIDFString
,
bool
&
hasQuotes
,
int
&
aIndex
)
{
// 1. drop all leading spaces
// 2. if the first character is '"', read until the next '"',
// otherwise read until the next space or EOL.
std
::
ostringstream
ostr
;
int
len
=
aLine
.
length
();
int
idx
=
aIndex
;
if
(
idx
<
0
||
idx
>=
len
)
return
false
;
while
(
isspace
(
aLine
[
idx
]
)
&&
idx
<
len
)
++
idx
;
if
(
idx
==
len
)
{
aIndex
=
idx
;
return
false
;
}
if
(
aLine
[
idx
]
==
'"'
)
{
hasQuotes
=
true
;
++
idx
;
while
(
aLine
[
idx
]
!=
'"'
&&
idx
<
len
)
ostr
<<
aLine
[
idx
++
];
if
(
idx
==
len
)
{
std
::
cerr
<<
"GetIDFString(): *ERROR*: unterminated quote mark in line:
\n
"
;
std
::
cerr
<<
"LINE: "
<<
aLine
<<
"
\n
"
;
aIndex
=
idx
;
return
false
;
}
++
idx
;
}
else
{
hasQuotes
=
false
;
while
(
!
isspace
(
aLine
[
idx
]
)
&&
idx
<
len
)
ostr
<<
aLine
[
idx
++
];
}
aIDFString
=
ostr
.
str
();
aIndex
=
idx
;
return
true
;
}
pcbnew/exporters/idf.h
deleted
100644 → 0
View file @
60a86853
/**
* @file idf.h
*/
/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2013-2014 Cirilo Bernardo
*
* 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
*/
#ifndef IDF_H
#define IDF_H
#include <wx/string.h>
#include <set>
#include <string>
#include <idf_common.h>
/**
* @Class IDF_COMP
* is responsible for parsing individual component files and rewriting relevant
* data to a library file.
*/
class
IDF_COMP
{
private
:
/// filename (full path) of the IDF component footprint
wxString
componentFile
;
/// reference designator; a valid designator or NOREFDES
std
::
string
refdes
;
/// overall translation of the part (component location + 3D offset)
double
loc_x
;
double
loc_y
;
double
loc_z
;
/// overall rotation of the part (3D Z rotation + component rotation)
double
rotation
;
/// true if the component is on the top of the board
bool
top
;
/// geometry of the package; for example, HORIZ, VERT, "HORIZ 0.2 inch"
std
::
string
geometry
;
/// package name or part number; for example "TO92" or "BC107"
std
::
string
partno
;
/// the owning IDF_LIB instance
IDF_LIB
*
parent
;
/**
* Function substituteComponent
* places a substitute component footprint into the library file
* and creates an appropriate entry for the PLACEMENT section
* @param aLibFile is the library file to write to
* @return bool: true if data was successfully written
*/
bool
substituteComponent
(
FILE
*
aLibFile
);
// parse RECORD 2; return TRUE if all is OK, otherwise FALSE
bool
parseRec2
(
const
std
::
string
aLine
,
bool
&
isNewItem
);
// parse RECORD 3; return TRUE if all is OK, otherwise FALSE
bool
parseRec3
(
const
std
::
string
aLine
,
int
&
aLoopIndex
,
double
&
aX
,
double
&
aY
,
bool
&
aClosed
);
public
:
IDF_COMP
(
IDF_LIB
*
aParent
);
/**
* Function PlaceComponent
* specifies the parameters of an IDF component outline placed on the board
* @param aComponentFile is the IDF component file to include
* @param aRefDes is the component reference designator; an empty string,
* '~' or '0' all default to "NOREFDES".
* @param aLocation is the overall translation of the part (board location + 3D offset)
* @param aRotation is the overall rotation of the part (component rotation + 3D Z rotation)
* @return bool: true if the specified component file exists
*/
bool
PlaceComponent
(
const
wxString
aComponentFile
,
const
std
::
string
aRefDes
,
double
aXLoc
,
double
aYLoc
,
double
aZLoc
,
double
aRotation
,
bool
isOnTop
);
/**
* Function WriteLib
* parses the model file to extract information needed by the
* PLACEMENT section and writes data (if necessary) to the
* library file
* @param aLibFile is the library file to write to
* @return bool: true if data was successfully written
*/
bool
WriteLib
(
FILE
*
aLibFile
);
/**
* Function WritePlacement
* write the .PLACEMENT data of the component to the IDF board @param aLayoutFile
* @return bool: true if data was successfully written
*/
bool
WritePlacement
(
FILE
*
aLayoutFile
);
};
/**
* @Class IDF_LIB
* stores information on IDF models ( also has an inbuilt NOMODEL model )
* and is responsible for writing the ELECTRICAL sections of the library file
* (*.emp) and the PLACEMENT section of the board file.
*/
class
IDF_LIB
{
/// a list of component outline names and a flag to indicate their save state
std
::
set
<
std
::
string
>
regOutlines
;
std
::
list
<
IDF_COMP
*
>
components
;
bool
libWritten
;
/**
* Function writeLib
* writes all current library information to the output file
*/
bool
writeLib
(
FILE
*
aLibFile
);
/**
* Function writeBrd
* write placement information to the board file
*/
bool
writeBrd
(
FILE
*
aLayoutFile
);
public
:
virtual
~
IDF_LIB
();
/**
* Function WriteFiles
* writes the library entries to the *.emp file (aLibFile) and the
* .PLACEMENT section to the *.emn file (aLayoutFile)
* @param aLayoutFile IDF board file
* @param aLibFile IDF library file
* @return bool: true if all data was written successfully
*/
bool
WriteFiles
(
FILE
*
aLayoutFile
,
FILE
*
aLibFile
);
/**
* Function RegisterOutline
* adds the given string to a list of current outline entities.
* @param aGeomPartString is a concatenation of the IDF component's
* geometry name and part name; this is used as a unique identifier
* to prevent redundant entries in the library output.
* @return bool: true if the string was already registered,
* false if it is a new registration.
*/
bool
RegisterOutline
(
const
std
::
string
aGeomPartString
);
bool
PlaceComponent
(
const
wxString
aComponentFile
,
const
std
::
string
aRefDes
,
double
aXLoc
,
double
aYLoc
,
double
aZLoc
,
double
aRotation
,
bool
isOnTop
);
};
/**
* @Class IDF_BOARD
* contains objects necessary for the maintenance of the IDF board and library files.
*/
class
IDF_BOARD
{
private
:
IDF_LIB
IDFLib
;
///< IDF library manager
std
::
list
<
IDF_DRILL_DATA
*>
drills
;
///< IDF drill data
int
outlineIndex
;
///< next outline index to use
bool
useThou
;
///< true if output is THOU
double
scale
;
///< scale from KiCad IU to IDF output units
double
boardThickness
;
///< total thickness of the PCB
bool
hasBrdOutlineHdr
;
///< true when a board outline header has been written
int
refdesIndex
;
///< index to generate REFDES for modules which have none
double
offsetX
;
///< offset to roughly center the board on the world origin
double
offsetY
;
FILE
*
layoutFile
;
///< IDF board file (*.emn)
FILE
*
libFile
;
///< IDF library file (*.emp)
/**
* Function Write
* outputs a .DRILLED_HOLES section compliant with the
* IDFv3 specification.
* @param aLayoutFile : open file (*.emn) for output
*/
bool
WriteDrills
(
void
);
public
:
IDF_BOARD
();
~
IDF_BOARD
();
// Set up the output files and scale factor;
// return TRUE if everything is OK
bool
Setup
(
wxString
aBoardName
,
wxString
aFullFileName
,
bool
aUseThou
,
int
aBoardThickness
);
// Finish a board
// Write out all current data and close files.
// Return true for success
bool
Finish
(
void
);
/**
* Function GetScale
* returns the output scaling factor
*/
double
GetScale
(
void
);
/**
* Function SetOffset
* sets the global coordinate offsets
*/
void
SetOffset
(
double
x
,
double
y
);
/**
* Function GetOffset
* returns the global coordinate offsets
*/
void
GetOffset
(
double
&
x
,
double
&
y
);
// Add an outline; the very first outline is the board perimeter;
// all additional outlines are cutouts.
bool
AddOutline
(
IDF_OUTLINE
&
aOutline
);
/**
* Function AddDrill
* creates a drill entry and adds it to the list of PCB holes
* @param dia : drill diameter
* @param x : X coordinate of the drill center
* @param y : Y coordinate of the drill center
* @param plating : flag, PTH or NPTH
* @param refdes : component Reference Designator
* @param holetype : purpose of hole
* @param owner : one of MCAD, ECAD, UNOWNED
*/
bool
AddDrill
(
double
dia
,
double
x
,
double
y
,
IDF3
::
KEY_PLATING
plating
,
const
std
::
string
refdes
,
const
std
::
string
holeType
,
IDF3
::
KEY_OWNER
owner
);
/**
* Function AddSlot
* creates a slot cutout within the IDF BOARD section; this is a deficient representation
* of a KiCad 'oval' drill; IDF is unable to represent a plated slot and unable to
* represent the Reference Designator association with a slot.
*/
bool
AddSlot
(
double
aWidth
,
double
aLength
,
double
aOrientation
,
double
aX
,
double
aY
);
bool
PlaceComponent
(
const
wxString
aComponentFile
,
const
std
::
string
aRefDes
,
double
aXLoc
,
double
aYLoc
,
double
aZLoc
,
double
aRotation
,
bool
isOnTop
);
std
::
string
GetRefDes
(
void
);
};
/**
* @Class IDF_DRILL_DATA
* contains information describing a drilled hole and is responsible for
* writing this information to a file in compliance with the IDFv3 specification.
*/
class
IDF_DRILL_DATA
{
private
:
double
dia
;
double
x
;
double
y
;
IDF3
::
KEY_PLATING
plating
;
IDF3
::
KEY_REFDES
kref
;
IDF3
::
KEY_HOLETYPE
khole
;
std
::
string
refdes
;
std
::
string
holetype
;
IDF3
::
KEY_OWNER
owner
;
public
:
/**
* Constructor IDF_DRILL_DATA
* creates a drill entry with information compliant with the
* IDFv3 specifications.
* @param aDrillDia : drill diameter
* @param aPosX : X coordinate of the drill center
* @param aPosY : Y coordinate of the drill center
* @param aPlating : flag, PTH or NPTH
* @param aRefDes : component Reference Designator
* @param aHoleType : purpose of hole
* @param aOwner : one of MCAD, ECAD, UNOWNED
*/
IDF_DRILL_DATA
(
double
aDrillDia
,
double
aPosX
,
double
aPosY
,
IDF3
::
KEY_PLATING
aPlating
,
const
std
::
string
aRefDes
,
const
std
::
string
aHoleType
,
IDF3
::
KEY_OWNER
aOwner
);
/**
* Function Write
* writes a single line representing the hole within a .DRILLED_HOLES section
*/
bool
Write
(
FILE
*
aLayoutFile
);
};
#endif // IDF_H
pcbnew/exporters/idf_common.cpp
deleted
100644 → 0
View file @
60a86853
/**
* file: idf_common.cpp
*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2013-2014 Cirilo Bernardo
*
* 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 <list>
#include <string>
#include <iostream>
#include <cstdio>
#include <cmath>
#include <richio.h>
#include <idf_common.h>
#include <build_version.h>
#ifdef DEBUG_IDF
void
IDF3
::
PrintSeg
(
IDF_SEGMENT
*
aSegment
)
{
if
(
aSegment
->
IsCircle
()
)
{
fprintf
(
stdout
,
"printSeg(): CIRCLE: C(%.3f, %.3f) P(%.3f, %.3f) rad. %.3f
\n
"
,
aSegment
->
startPoint
.
x
,
aSegment
->
startPoint
.
y
,
aSegment
->
endPoint
.
x
,
aSegment
->
endPoint
.
y
,
aSegment
->
radius
);
return
;
}
if
(
aSegment
->
angle
<
-
MIN_ANG
||
aSegment
->
angle
>
MIN_ANG
)
{
fprintf
(
stdout
,
"printSeg(): ARC: p1(%.3f, %.3f) p2(%.3f, %.3f) ang. %.3f
\n
"
,
aSegment
->
startPoint
.
x
,
aSegment
->
startPoint
.
y
,
aSegment
->
endPoint
.
x
,
aSegment
->
endPoint
.
y
,
aSegment
->
angle
);
return
;
}
fprintf
(
stdout
,
"printSeg(): LINE: p1(%.3f, %.3f) p2(%.3f, %.3f)
\n
"
,
aSegment
->
startPoint
.
x
,
aSegment
->
startPoint
.
y
,
aSegment
->
endPoint
.
x
,
aSegment
->
endPoint
.
y
);
return
;
}
#endif
bool
IDF_POINT
::
Matches
(
const
IDF_POINT
&
aPoint
,
double
aRadius
)
{
double
dx
=
x
-
aPoint
.
x
;
double
dy
=
y
-
aPoint
.
y
;
double
d2
=
dx
*
dx
+
dy
*
dy
;
if
(
d2
<=
aRadius
*
aRadius
)
return
true
;
return
false
;
}
double
IDF_POINT
::
CalcDistance
(
const
IDF_POINT
&
aPoint
)
const
{
double
dx
=
aPoint
.
x
-
x
;
double
dy
=
aPoint
.
y
-
y
;
double
dist
=
sqrt
(
dx
*
dx
+
dy
*
dy
);
return
dist
;
}
double
IDF3
::
CalcAngleRad
(
const
IDF_POINT
&
aStartPoint
,
const
IDF_POINT
&
aEndPoint
)
{
return
atan2
(
aEndPoint
.
y
-
aStartPoint
.
y
,
aEndPoint
.
x
-
aStartPoint
.
x
);
}
double
IDF3
::
CalcAngleDeg
(
const
IDF_POINT
&
aStartPoint
,
const
IDF_POINT
&
aEndPoint
)
{
double
ang
=
CalcAngleRad
(
aStartPoint
,
aEndPoint
);
// round to thousandths of a degree
int
iang
=
int
(
ang
/
M_PI
*
1800000.0
);
ang
=
iang
/
10000.0
;
return
ang
;
}
void
IDF3
::
GetOutline
(
std
::
list
<
IDF_SEGMENT
*>&
aLines
,
IDF_OUTLINE
&
aOutline
)
{
aOutline
.
Clear
();
// NOTE: To tell if the point order is CCW or CW,
// sum all: (endPoint.X[n] - startPoint.X[n])*(endPoint[n] + startPoint.Y[n])
// If the result is >0, the direction is CW, otherwise
// it is CCW. Note that the result cannot be 0 unless
// we have a bounded area of 0.
// First we find the segment with the leftmost point
std
::
list
<
IDF_SEGMENT
*>::
iterator
bl
=
aLines
.
begin
();
std
::
list
<
IDF_SEGMENT
*>::
iterator
el
=
aLines
.
end
();
std
::
list
<
IDF_SEGMENT
*>::
iterator
idx
=
bl
++
;
// iterator for the object with minX
double
minx
=
(
*
idx
)
->
GetMinX
();
double
curx
;
while
(
bl
!=
el
)
{
curx
=
(
*
bl
)
->
GetMinX
();
if
(
curx
<
minx
)
{
minx
=
curx
;
idx
=
bl
;
}
++
bl
;
}
aOutline
.
push
(
*
idx
);
#ifdef DEBUG_IDF
PrintSeg
(
*
idx
);
#endif
aLines
.
erase
(
idx
);
// If the item is a circle then we're done
if
(
aOutline
.
front
()
->
IsCircle
()
)
return
;
// Assemble the loop
bool
complete
=
false
;
// set if loop is complete
bool
matched
;
// set if a segment's end point was matched
while
(
!
complete
)
{
matched
=
false
;
bl
=
aLines
.
begin
();
el
=
aLines
.
end
();
while
(
bl
!=
el
&&
!
matched
)
{
if
(
(
*
bl
)
->
MatchesStart
(
aOutline
.
back
()
->
endPoint
)
)
{
if
(
(
*
bl
)
->
IsCircle
()
)
{
// a circle on the perimeter is pathological but we just ignore it
++
bl
;
}
else
{
matched
=
true
;
#ifdef DEBUG_IDF
PrintSeg
(
*
bl
);
#endif
aOutline
.
push
(
*
bl
);
aLines
.
erase
(
bl
);
}
continue
;
}
++
bl
;
}
if
(
!
matched
)
{
// attempt to match the end points
bl
=
aLines
.
begin
();
el
=
aLines
.
end
();
while
(
bl
!=
el
&&
!
matched
)
{
if
(
(
*
bl
)
->
MatchesEnd
(
aOutline
.
back
()
->
endPoint
)
)
{
if
(
(
*
bl
)
->
IsCircle
()
)
{
// a circle on the perimeter is pathological but we just ignore it
++
bl
;
}
else
{
matched
=
true
;
(
*
bl
)
->
SwapEnds
();
#ifdef DEBUG_IDF
printSeg
(
*
bl
);
#endif
aOutline
.
push
(
*
bl
);
aLines
.
erase
(
bl
);
}
continue
;
}
++
bl
;
}
}
if
(
!
matched
)
{
// still no match - attempt to close the loop
if
(
(
aOutline
.
size
()
>
1
)
||
(
aOutline
.
front
()
->
angle
<
-
MIN_ANG
)
||
(
aOutline
.
front
()
->
angle
>
MIN_ANG
)
)
{
// close the loop
IDF_SEGMENT
*
seg
=
new
IDF_SEGMENT
(
aOutline
.
back
()
->
endPoint
,
aOutline
.
front
()
->
startPoint
);
if
(
seg
)
{
complete
=
true
;
#ifdef DEBUG_IDF
printSeg
(
seg
);
#endif
aOutline
.
push
(
seg
);
break
;
}
}
// the outline is bad; drop the segments
aOutline
.
Clear
();
return
;
}
// check if the loop is complete
if
(
aOutline
.
front
()
->
MatchesStart
(
aOutline
.
back
()
->
endPoint
)
)
{
complete
=
true
;
break
;
}
}
}
IDF_SEGMENT
::
IDF_SEGMENT
()
{
angle
=
0.0
;
offsetAngle
=
0.0
;
radius
=
0.0
;
}
IDF_SEGMENT
::
IDF_SEGMENT
(
const
IDF_POINT
&
aStartPoint
,
const
IDF_POINT
&
aEndPoint
)
{
angle
=
0.0
;
offsetAngle
=
0.0
;
radius
=
0.0
;
startPoint
=
aStartPoint
;
endPoint
=
aEndPoint
;
}
IDF_SEGMENT
::
IDF_SEGMENT
(
const
IDF_POINT
&
aStartPoint
,
const
IDF_POINT
&
aEndPoint
,
double
aAngle
,
bool
aFromKicad
)
{
double
diff
=
abs
(
aAngle
)
-
360.0
;
if
(
(
diff
<
MIN_ANG
&&
diff
>
-
MIN_ANG
)
||
(
aAngle
<
MIN_ANG
&&
aAngle
>
-
MIN_ANG
)
||
(
!
aFromKicad
)
)
{
angle
=
0.0
;
startPoint
=
aStartPoint
;
endPoint
=
aEndPoint
;
if
(
diff
<
MIN_ANG
&&
diff
>
-
MIN_ANG
)
{
angle
=
360.0
;
center
=
aStartPoint
;
offsetAngle
=
0.0
;
radius
=
aStartPoint
.
CalcDistance
(
aEndPoint
);
}
else
if
(
aAngle
<
MIN_ANG
&&
aAngle
>
-
MIN_ANG
)
{
CalcCenterAndRadius
();
}
return
;
}
// we need to convert from the KiCad arc convention
angle
=
aAngle
;
center
=
aStartPoint
;
offsetAngle
=
IDF3
::
CalcAngleDeg
(
aStartPoint
,
aEndPoint
);
radius
=
aStartPoint
.
CalcDistance
(
aEndPoint
);
startPoint
=
aEndPoint
;
double
ang
=
offsetAngle
+
aAngle
;
ang
=
(
ang
/
180.0
)
*
M_PI
;
endPoint
.
x
=
(
radius
*
cos
(
ang
)
)
+
center
.
x
;
endPoint
.
y
=
(
radius
*
sin
(
ang
)
)
+
center
.
y
;
}
bool
IDF_SEGMENT
::
MatchesStart
(
const
IDF_POINT
&
aPoint
,
double
aRadius
)
{
return
startPoint
.
Matches
(
aPoint
,
aRadius
);
}
bool
IDF_SEGMENT
::
MatchesEnd
(
const
IDF_POINT
&
aPoint
,
double
aRadius
)
{
return
endPoint
.
Matches
(
aPoint
,
aRadius
);
}
void
IDF_SEGMENT
::
CalcCenterAndRadius
(
void
)
{
// NOTE: this routine does not check if the points are the same
// or too close to be sensible in a production setting.
double
offAng
=
IDF3
::
CalcAngleRad
(
startPoint
,
endPoint
);
double
d
=
startPoint
.
CalcDistance
(
endPoint
)
/
2.0
;
double
xm
=
(
startPoint
.
x
+
endPoint
.
x
)
*
0.5
;
double
ym
=
(
startPoint
.
y
+
endPoint
.
y
)
*
0.5
;
radius
=
d
/
sin
(
angle
*
M_PI
/
180.0
);
if
(
radius
<
0.0
)
{
radius
=
-
radius
;
}
// calculate the height of the triangle with base d and hypotenuse r
double
dh2
=
radius
*
radius
-
d
*
d
;
if
(
dh2
<
0
)
{
// this should only ever happen due to rounding errors when r == d
dh2
=
0
;
}
double
h
=
sqrt
(
dh2
);
if
(
angle
>
0.0
)
offAng
+=
M_PI2
;
else
offAng
-=
M_PI2
;
if
(
(
angle
>
M_PI
)
||
(
angle
<
-
M_PI
)
)
offAng
+=
M_PI
;
center
.
x
=
h
*
cos
(
offAng
)
+
xm
;
center
.
y
=
h
*
sin
(
offAng
)
+
ym
;
offsetAngle
=
IDF3
::
CalcAngleDeg
(
center
,
startPoint
);
}
bool
IDF_SEGMENT
::
IsCircle
(
void
)
{
double
diff
=
abs
(
angle
)
-
360.0
;
if
(
(
diff
<
MIN_ANG
)
&&
(
diff
>
-
MIN_ANG
)
)
return
true
;
return
false
;
}
double
IDF_SEGMENT
::
GetMinX
(
void
)
{
if
(
angle
==
0.0
)
return
std
::
min
(
startPoint
.
x
,
endPoint
.
x
);
// Calculate the leftmost point of the circle or arc
if
(
IsCircle
()
)
{
// if only everything were this easy
return
center
.
x
-
radius
;
}
// cases:
// 1. CCW arc: if offset + included angle >= 180 deg then
// MinX = center.x - radius, otherwise MinX is the
// same as for the case of a line.
// 2. CW arc: if offset + included angle <= -180 deg then
// MinX = center.x - radius, otherwise MinX is the
// same as for the case of a line.
if
(
angle
>
0
)
{
// CCW case
if
(
(
offsetAngle
+
angle
)
>=
180.0
)
{
return
center
.
x
-
radius
;
}
else
{
return
std
::
min
(
startPoint
.
x
,
endPoint
.
x
);
}
}
// CW case
if
(
(
offsetAngle
+
angle
)
<=
-
180.0
)
{
return
center
.
x
-
radius
;
}
return
std
::
min
(
startPoint
.
x
,
endPoint
.
x
);
}
void
IDF_SEGMENT
::
SwapEnds
(
void
)
{
if
(
IsCircle
()
)
{
// reverse the direction
angle
=
-
angle
;
return
;
}
IDF_POINT
tmp
=
startPoint
;
startPoint
=
endPoint
;
endPoint
=
tmp
;
if
(
(
angle
<
MIN_ANG
)
&&
(
angle
>
-
MIN_ANG
)
)
return
;
// nothing more to do
// change the direction of the arc
angle
=
-
angle
;
// calculate the new offset angle
offsetAngle
=
IDF3
::
CalcAngleDeg
(
center
,
startPoint
);
}
void
IDF_OUTLINE
::
push
(
IDF_SEGMENT
*
item
)
{
if
(
!
outline
.
empty
()
)
{
if
(
item
->
IsCircle
()
)
{
// not allowed
wxString
msg
=
wxT
(
"INVALID GEOMETRY: a circle is being added to a non-empty outline"
);
THROW_IO_ERROR
(
msg
);
}
else
{
if
(
outline
.
back
()
->
IsCircle
()
)
{
// we can't add lines to a circle
wxString
msg
=
wxT
(
"INVALID GEOMETRY: a line is being added to a circular outline"
);
THROW_IO_ERROR
(
msg
);
}
else
if
(
!
item
->
MatchesStart
(
outline
.
back
()
->
endPoint
)
)
{
// startPoint[N] != endPoint[N -1]
wxString
msg
=
wxT
(
"INVALID GEOMETRY: disjoint segments"
);
THROW_IO_ERROR
(
msg
);
}
}
}
outline
.
push_back
(
item
);
dir
+=
(
outline
.
back
()
->
endPoint
.
x
-
outline
.
back
()
->
startPoint
.
x
)
*
(
outline
.
back
()
->
endPoint
.
y
+
outline
.
back
()
->
startPoint
.
y
);
}
pcbnew/exporters/idf_common.h
deleted
100644 → 0
View file @
60a86853
/**
* @file idf_common.h
*/
/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2013-2014 Cirilo Bernardo
*
* 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
*/
#ifndef IDF_COMMON_H
#define IDF_COMMON_H
#include <list>
#ifndef M_PI
#define M_PI 3.1415926535897932384626433832795028841
#endif
#ifndef M_PI2
#define M_PI2 ( M_PI / 2.0 )
#endif
#ifndef M_PI4
#define M_PI4 ( M_PI / 4.0 )
#endif
// differences in angle smaller than MIN_ANG are considered equal
#define MIN_ANG (0.01)
class
IDF_POINT
;
class
IDF_SEGMENT
;
class
IDF_DRILL_DATA
;
class
IDF_OUTLINE
;
class
IDF_LIB
;
namespace
IDF3
{
enum
KEY_OWNER
{
UNOWNED
=
0
,
// < either MCAD or ECAD may modify a feature
MCAD
,
// < only MCAD may modify a feature
ECAD
// < only ECAD may modify a feature
};
enum
KEY_HOLETYPE
{
PIN
=
0
,
// < drill hole is for a pin
VIA
,
// < drill hole is for a via
MTG
,
// < drill hole is for mounting
TOOL
,
// < drill hole is for tooling
OTHER
// < user has specified a custom type
};
enum
KEY_PLATING
{
PTH
=
0
,
// < Plate-Through Hole
NPTH
// < Non-Plate-Through Hole
};
enum
KEY_REFDES
{
BOARD
=
0
,
// < feature is associated with the board
NOREFDES
,
// < feature is associated with a component with no RefDes
PANEL
,
// < feature is associated with an IDF panel
REFDES
// < reference designator as assigned by the CAD software
};
// calculate the angle between the horizon and the segment aStartPoint to aEndPoint
double
CalcAngleRad
(
const
IDF_POINT
&
aStartPoint
,
const
IDF_POINT
&
aEndPoint
);
double
CalcAngleDeg
(
const
IDF_POINT
&
aStartPoint
,
const
IDF_POINT
&
aEndPoint
);
// take contiguous elements from 'lines' and stuff them into 'outline'
void
GetOutline
(
std
::
list
<
IDF_SEGMENT
*>&
aLines
,
IDF_OUTLINE
&
aOutline
);
#ifdef DEBUG_IDF
// prints out segment information for debug purposes
void
PrintSeg
(
IDF_SEGMENT
*
aSegment
);
#endif
}
/**
* @Class IDF_POINT
* represents a point
*/
class
IDF_POINT
{
public
:
double
x
;
// < X coordinate
double
y
;
// < Y coordinate
IDF_POINT
()
{
x
=
0
.
0
;
y
=
0
.
0
;
}
/**
* Function Matches()
* returns true if the given coordinate point is within the given radius
* of the point.
* @param aPoint : coordinates of the point being compared
* @param aRadius : radius within which the points are considered the same
*/
bool
Matches
(
const
IDF_POINT
&
aPoint
,
double
aRadius
=
1e-5
);
double
CalcDistance
(
const
IDF_POINT
&
aPoint
)
const
;
};
/**
* @Class IDF_SEGMENT
* represents a geometry segment as used in IDFv3 outlines
*/
class
IDF_SEGMENT
{
private
:
/**
* Function CalcCenterAndRadius()
* Calculates the center, radius, and angle between center and start point given the
* IDF compliant points and included angle.
* @var startPoint, @var endPoint, and @var angle must be set prior as per IDFv3
*/
void
CalcCenterAndRadius
(
void
);
public
:
IDF_POINT
startPoint
;
// starting point in IDF coordinates
IDF_POINT
endPoint
;
// end point in IDF coordinates
IDF_POINT
center
;
// center of an arc or circle; used primarily for calculating min X
double
angle
;
// included angle (degrees) according to IDFv3 specification
double
offsetAngle
;
// angle between center and start of arc; used to speed up some calcs.
double
radius
;
// radius of the arc or circle; used to speed up some calcs.
/**
* Function IDF_SEGMENT()
* initializes the internal variables
*/
IDF_SEGMENT
();
/**
* Function IDF_SEGMENT( start, end )
* creates a straight segment
*/
IDF_SEGMENT
(
const
IDF_POINT
&
aStartPoint
,
const
IDF_POINT
&
aEndPoint
);
/**
* Function IDF_SEGMENT( start, end )
* creates a straight segment, arc, or circle depending on the angle
* @param aStartPoint : start point (center if using KiCad convention, otherwise IDF convention)
* @param aEndPoint : end point (start of arc if using KiCad convention, otherwise IDF convention)
* @param aAngle : included angle; the KiCad convention is equivalent to the IDF convention
* @param fromKicad : set true if we need to convert from KiCad to IDF convention
*/
IDF_SEGMENT
(
const
IDF_POINT
&
aStartPoint
,
const
IDF_POINT
&
aEndPoint
,
double
aAngle
,
bool
aFromKicad
);
/**
* Function MatchesStart()
* returns true if the given coordinate is within a radius 'rad'
* of the start point.
* @param aPoint : coordinates of the point being compared
* @param aRadius : radius within which the points are considered the same
*/
bool
MatchesStart
(
const
IDF_POINT
&
aPoint
,
double
aRadius
=
1e-3
);
/**
* Function MatchesEnd()
* returns true if the given coordinate is within a radius 'rad'
* of the end point.
* @param aPoint : coordinates of the point being compared
* @param aRadius : radius within which the points are considered the same
*/
bool
MatchesEnd
(
const
IDF_POINT
&
aPoint
,
double
aRadius
=
1e-3
);
/**
* Function IsCircle()
* returns true if this segment is a circle
*/
bool
IsCircle
(
void
);
/**
* Function GetMinX()
* returns the minimum X coordinate of this segment
*/
double
GetMinX
(
void
);
/**
* Function SwapEnds()
* Swaps the start and end points and alters internal
* variables as necessary for arcs
*/
void
SwapEnds
(
void
);
};
/**
* @Class IDF_OUTLINE
* contains segment and winding information for an IDF outline
*/
class
IDF_OUTLINE
{
private
:
double
dir
;
std
::
list
<
IDF_SEGMENT
*>
outline
;
public
:
IDF_OUTLINE
()
{
dir
=
0
.
0
;
}
~
IDF_OUTLINE
()
{
Clear
();
}
// returns true if the current list of points represents a counterclockwise winding
bool
IsCCW
(
void
)
{
if
(
dir
>
0
.
0
)
return
false
;
return
true
;
}
// clears the internal list of outline segments
void
Clear
(
void
)
{
dir
=
0
.
0
;
while
(
!
outline
.
empty
()
)
{
delete
outline
.
front
();
outline
.
pop_front
();
}
}
// returns the size of the internal segment list
size_t
size
(
void
)
{
return
outline
.
size
();
}
// returns true if the internal segment list is empty
bool
empty
(
void
)
{
return
outline
.
empty
();
}
// return the front() of the internal segment list
IDF_SEGMENT
*&
front
(
void
)
{
return
outline
.
front
();
}
// return the back() of the internal segment list
IDF_SEGMENT
*&
back
(
void
)
{
return
outline
.
back
();
}
// return the begin() iterator of the internal segment list
std
::
list
<
IDF_SEGMENT
*>::
iterator
begin
(
void
)
{
return
outline
.
begin
();
}
// return the end() iterator of the internal segment list
std
::
list
<
IDF_SEGMENT
*>::
iterator
end
(
void
)
{
return
outline
.
end
();
}
// push a segment onto the internal list
void
push
(
IDF_SEGMENT
*
item
);
};
#endif // IDF_COMMON_H
utils/idftools/idf_examples/test_donut.emn
0 → 100644
View file @
7a110d0c
.HEADER
BOARD_FILE 3.0 "Created by some software" 2014/02/01.15:09:15 1
"test_donut" MM
.END_HEADER
# The board outline is a simple square with a small hole in it
.BOARD_OUTLINE ECAD
1.60000
0 -100 100 0
0 -100 -100 0
0 100 -100 0
0 100 100 0
0 -100 100 0
1 0 0 0
1 5 0 360
.END_BOARD_OUTLINE
# This OTHER OUTLINE is a square toroid
.OTHER_OUTLINE UNOWNED
MY_DONUT 30 TOP
0 0 0 0
0 75 0 360
1 0 0 0
1 30 0 360
.END_OTHER_OUTLINE
# This OTHER OUTLINE is a square with a hole
.OTHER_OUTLINE UNOWNED
MY_NOT_DONUT 2 BOTTOM
0 -50 50 0
0 -50 -50 0
0 50 -50 0
0 50 50 0
0 -50 50 0
1 0 0 0
1 10 0 360
2 0 50 0
2 0 75 360
3 50 0 0
3 75 0 360
4 0 -50 0
4 0 -75 360
5 -50 0 0
5 -75 0 360
.END_OTHER_OUTLINE
utils/idftools/idf_examples/test_donut.emp
0 → 100644
View file @
7a110d0c
.HEADER
LIBRARY_FILE 3.0 "Created by some software" 2014/02/01.15:09:15 1
.END_HEADER
# This file contains no component outlines
\ No newline at end of file
utils/idftools/idf_outlines.cpp
View file @
7a110d0c
...
@@ -693,6 +693,10 @@ void BOARD_OUTLINE::writeOutline( std::ofstream& aBoardFile, IDF_OUTLINE* aOutli
...
@@ -693,6 +693,10 @@ void BOARD_OUTLINE::writeOutline( std::ofstream& aBoardFile, IDF_OUTLINE* aOutli
std
::
list
<
IDF_SEGMENT
*>::
iterator
bo
;
std
::
list
<
IDF_SEGMENT
*>::
iterator
bo
;
std
::
list
<
IDF_SEGMENT
*>::
iterator
eo
;
std
::
list
<
IDF_SEGMENT
*>::
iterator
eo
;
if
(
!
aOutline
)
throw
(
IDF_ERROR
(
__FILE__
,
__FUNCTION__
,
__LINE__
,
"
\n
* BUG: NULL outline pointer"
)
);
if
(
aOutline
->
size
()
==
1
)
if
(
aOutline
->
size
()
==
1
)
{
{
if
(
!
aOutline
->
front
()
->
IsCircle
()
)
if
(
!
aOutline
->
front
()
->
IsCircle
()
)
...
...
utils/idftools/idf_parser.cpp
View file @
7a110d0c
...
@@ -36,6 +36,48 @@
...
@@ -36,6 +36,48 @@
using
namespace
std
;
using
namespace
std
;
using
namespace
IDF3
;
using
namespace
IDF3
;
static
bool
MatchCompOutline
(
IDF3_COMP_OUTLINE
*
aOutlineA
,
IDF3_COMP_OUTLINE
*
aOutlineB
)
{
if
(
aOutlineA
->
GetComponentClass
()
!=
aOutlineB
->
GetComponentClass
()
)
return
false
;
if
(
aOutlineA
->
OutlinesSize
()
!=
aOutlineB
->
OutlinesSize
()
)
return
false
;
// are both outlines empty?
if
(
aOutlineA
->
OutlinesSize
()
==
0
)
return
true
;
IDF_OUTLINE
*
opA
=
aOutlineA
->
GetOutline
(
0
);
IDF_OUTLINE
*
opB
=
aOutlineB
->
GetOutline
(
0
);
if
(
opA
->
size
()
!=
opB
->
size
()
)
return
false
;
if
(
opA
->
size
()
==
0
)
return
true
;
std
::
list
<
IDF_SEGMENT
*>::
iterator
olAs
=
opA
->
begin
();
std
::
list
<
IDF_SEGMENT
*>::
iterator
olAe
=
opA
->
end
();
std
::
list
<
IDF_SEGMENT
*>::
iterator
olBs
=
opB
->
begin
();
while
(
olAs
!=
olAe
)
{
if
(
!
(
*
olAs
)
->
MatchesStart
(
(
*
olBs
)
->
startPoint
)
)
return
false
;
if
(
!
(
*
olAs
)
->
MatchesEnd
(
(
*
olBs
)
->
endPoint
)
)
return
false
;
++
olAs
;
++
olBs
;
}
return
true
;
}
/*
/*
* CLASS: IDF3_COMP_OUTLINE_DATA
* CLASS: IDF3_COMP_OUTLINE_DATA
* This represents the outline placement
* This represents the outline placement
...
@@ -285,7 +327,7 @@ bool IDF3_COMP_OUTLINE_DATA::readPlaceData( std::ifstream &aBoardFile,
...
@@ -285,7 +327,7 @@ bool IDF3_COMP_OUTLINE_DATA::readPlaceData( std::ifstream &aBoardFile,
// component is given a unique RefDes. This class of defect
// component is given a unique RefDes. This class of defect
// is one reason IDF does not work well in faithfully
// is one reason IDF does not work well in faithfully
// conveying information between ECAD and MCAD.
// conveying information between ECAD and MCAD.
refdes
=
token
;
refdes
=
aBoard
->
GetNewRefDes
()
;
}
}
else
if
(
CompareToken
(
"BOARD"
,
token
)
)
else
if
(
CompareToken
(
"BOARD"
,
token
)
)
{
{
...
@@ -1297,6 +1339,7 @@ IDF3_BOARD::IDF3_BOARD( IDF3::CAD_TYPE aCadType )
...
@@ -1297,6 +1339,7 @@ IDF3_BOARD::IDF3_BOARD( IDF3::CAD_TYPE aCadType )
userYoff
=
0.0
;
userYoff
=
0.0
;
brdFileVersion
=
0
;
brdFileVersion
=
0
;
libFileVersion
=
0
;
libFileVersion
=
0
;
iRefDes
=
0
;
// unlike other outlines which are created as necessary,
// unlike other outlines which are created as necessary,
// the board outline always exists and its parent must
// the board outline always exists and its parent must
...
@@ -1314,6 +1357,18 @@ IDF3_BOARD::~IDF3_BOARD()
...
@@ -1314,6 +1357,18 @@ IDF3_BOARD::~IDF3_BOARD()
return
;
return
;
}
}
const
std
::
string
&
IDF3_BOARD
::
GetNewRefDes
(
void
)
{
ostringstream
ostr
;
ostr
<<
"NOREFDESn"
<<
iRefDes
++
;
sRefDes
=
ostr
.
str
();
return
sRefDes
;
}
#ifndef DISABLE_IDF_OWNERSHIP
#ifndef DISABLE_IDF_OWNERSHIP
bool
IDF3_BOARD
::
checkComponentOwnership
(
int
aSourceLine
,
const
char
*
aSourceFunc
,
bool
IDF3_BOARD
::
checkComponentOwnership
(
int
aSourceLine
,
const
char
*
aSourceFunc
,
IDF3_COMPONENT
*
aComponent
)
IDF3_COMPONENT
*
aComponent
)
...
@@ -2422,7 +2477,12 @@ void IDF3_BOARD::readLibSection( std::ifstream& aLibFile, IDF3::FILE_STATE& aLib
...
@@ -2422,7 +2477,12 @@ void IDF3_BOARD::readLibSection( std::ifstream& aLibFile, IDF3::FILE_STATE& aLib
}
}
else
else
{
{
delete
pout
;
if
(
MatchCompOutline
(
pout
,
cop
)
)
{
delete
pout
;
// everything is fine; the outlines are genuine duplicates
return
;
}
ostringstream
ostr
;
ostringstream
ostr
;
ostr
<<
"invalid IDF library
\n
"
;
ostr
<<
"invalid IDF library
\n
"
;
...
@@ -3131,7 +3191,7 @@ bool IDF3_BOARD::SetBoardVersion( int aVersion )
...
@@ -3131,7 +3191,7 @@ bool IDF3_BOARD::SetBoardVersion( int aVersion )
{
{
ostringstream
ostr
;
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
"* board version ("
<<
aVersion
<<
") must be > 0"
;
ostr
<<
"* board version ("
<<
aVersion
<<
") must be >
=
0"
;
errormsg
=
ostr
.
str
();
errormsg
=
ostr
.
str
();
return
false
;
return
false
;
...
@@ -3155,7 +3215,7 @@ bool IDF3_BOARD::SetLibraryVersion( int aVersion )
...
@@ -3155,7 +3215,7 @@ bool IDF3_BOARD::SetLibraryVersion( int aVersion )
{
{
ostringstream
ostr
;
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
"* library version ("
<<
aVersion
<<
") must be > 0"
;
ostr
<<
"* library version ("
<<
aVersion
<<
") must be >
=
0"
;
errormsg
=
ostr
.
str
();
errormsg
=
ostr
.
str
();
return
false
;
return
false
;
...
@@ -3741,64 +3801,54 @@ IDF3_COMPONENT* IDF3_BOARD::FindComponent( std::string aRefDes )
...
@@ -3741,64 +3801,54 @@ IDF3_COMPONENT* IDF3_BOARD::FindComponent( std::string aRefDes )
// returns a pointer to a component outline object or NULL
// returns a pointer to a component outline object or NULL
// if the object doesn't exist
// if the object doesn't exist
IDF3_COMP_OUTLINE
*
IDF3_BOARD
::
GetComponentOutline
(
const
std
::
string
aGeomName
,
IDF3_COMP_OUTLINE
*
IDF3_BOARD
::
GetComponentOutline
(
wxString
aFullFileName
)
const
std
::
string
aPartName
,
wxString
aFullFileName
)
{
{
std
::
ostringstream
ostr
;
ostr
<<
aGeomName
<<
"_"
<<
aPartName
;
IDF3_COMP_OUTLINE
*
cp
=
GetComponentOutline
(
ostr
.
str
()
);
if
(
cp
!=
NULL
)
return
cp
;
std
::
string
fname
=
TO_UTF8
(
aFullFileName
);
std
::
string
fname
=
TO_UTF8
(
aFullFileName
);
wxFileName
idflib
(
aFullFileName
);
cp
=
new
IDF3_COMP_OUTLINE
(
this
);
if
(
!
idflib
.
IsOk
()
)
if
(
cp
==
NULL
)
{
{
ostringstream
ostr
;
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
cerr
<<
"* failed to create outline with UID '"
<<
aGeomName
<<
"_"
;
cerr
<<
"* invalid file name: '"
<<
fname
<<
"'"
;
cerr
<<
aPartName
<<
"'
\n
"
;
cerr
<<
"* filename: '"
<<
fname
<<
"'"
;
errormsg
=
ostr
.
str
();
errormsg
=
ostr
.
str
();
return
NULL
;
return
NULL
;
}
}
wxFileName
idflib
(
aFullFileName
);
if
(
!
idflib
.
FileExists
()
)
if
(
!
idflib
.
IsOk
()
)
{
{
delete
cp
;
ostringstream
ostr
;
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
cerr
<<
"*
invalid file name: '"
<<
fname
<<
"'"
;
cerr
<<
"*
no such file: '"
<<
fname
<<
"'"
;
errormsg
=
ostr
.
str
();
errormsg
=
ostr
.
str
();
return
NULL
;
return
NULL
;
}
}
if
(
!
idflib
.
FileExists
()
)
if
(
!
idflib
.
IsFileReadable
()
)
{
{
delete
cp
;
ostringstream
ostr
;
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
cerr
<<
"*
no such file: '"
<<
fname
<<
"'"
;
cerr
<<
"*
cannot read file: '"
<<
fname
<<
"'"
;
errormsg
=
ostr
.
str
();
errormsg
=
ostr
.
str
();
return
NULL
;
return
NULL
;
}
}
if
(
!
idflib
.
IsFileReadable
()
)
std
::
map
<
std
::
string
,
std
::
string
>::
iterator
itm
=
uidFileList
.
find
(
fname
);
if
(
itm
!=
uidFileList
.
end
()
)
return
GetComponentOutline
(
itm
->
second
);
IDF3_COMP_OUTLINE
*
cp
=
new
IDF3_COMP_OUTLINE
(
this
);
if
(
cp
==
NULL
)
{
{
delete
cp
;
ostringstream
ostr
;
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
cerr
<<
"* cannot read file: '"
<<
fname
<<
"'"
;
cerr
<<
"* failed to create outline
\n
"
;
cerr
<<
"* filename: '"
<<
fname
<<
"'"
;
errormsg
=
ostr
.
str
();
errormsg
=
ostr
.
str
();
return
NULL
;
return
NULL
;
...
@@ -3867,7 +3917,92 @@ IDF3_COMP_OUTLINE* IDF3_BOARD::GetComponentOutline( const std::string aGeomName,
...
@@ -3867,7 +3917,92 @@ IDF3_COMP_OUTLINE* IDF3_BOARD::GetComponentOutline( const std::string aGeomName,
model
.
close
();
model
.
close
();
return
cp
;
// check the unique ID against the list from library components
std
::
list
<
std
::
string
>::
iterator
lsts
=
uidLibList
.
begin
();
std
::
list
<
std
::
string
>::
iterator
lste
=
uidLibList
.
end
();
std
::
string
uid
=
cp
->
GetUID
();
IDF3_COMP_OUTLINE
*
oldp
=
NULL
;
while
(
lsts
!=
lste
)
{
if
(
!
lsts
->
compare
(
uid
)
)
{
oldp
=
GetComponentOutline
(
uid
);
if
(
MatchCompOutline
(
cp
,
oldp
)
)
{
// everything is fine; the outlines are genuine duplicates; delete the copy
delete
cp
;
// make sure we can find the item via its filename
uidFileList
.
insert
(
std
::
pair
<
std
::
string
,
std
::
string
>
(
fname
,
uid
)
);
// return the pointer to the original
return
oldp
;
}
else
{
delete
cp
;
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
"* duplicate UID for different Component Outlines: '"
<<
uid
<<
"'
\n
"
;
ostr
<<
"* original loaded from library, duplicate in current file
\n
"
;
ostr
<<
"* file: '"
<<
fname
<<
"'"
;
errormsg
=
ostr
.
str
();
return
NULL
;
}
}
++
lsts
;
}
// if we got this far then any duplicates are from files previously read
oldp
=
GetComponentOutline
(
uid
);
if
(
oldp
==
NULL
)
{
// everything is fine, there are no existing entries
uidFileList
.
insert
(
std
::
pair
<
std
::
string
,
std
::
string
>
(
fname
,
uid
)
);
compOutlines
.
insert
(
pair
<
const
std
::
string
,
IDF3_COMP_OUTLINE
*>
(
uid
,
cp
)
);
return
cp
;
}
if
(
MatchCompOutline
(
cp
,
oldp
)
)
{
// everything is fine; the outlines are genuine duplicates; delete the copy
delete
cp
;
// make sure we can find the item via its other filename
uidFileList
.
insert
(
std
::
pair
<
std
::
string
,
std
::
string
>
(
fname
,
uid
)
);
// return the pointer to the original
return
oldp
;
}
delete
cp
;
// determine the file name of the first instance
std
::
map
<
std
::
string
,
std
::
string
>::
iterator
ufls
=
uidFileList
.
begin
();
std
::
map
<
std
::
string
,
std
::
string
>::
iterator
ufle
=
uidFileList
.
end
();
std
::
string
oldfname
;
while
(
ufls
!=
ufle
)
{
if
(
!
ufls
->
second
.
compare
(
uid
)
)
{
oldfname
=
ufls
->
first
;
break
;
}
++
ufls
;
}
ostringstream
ostr
;
ostr
<<
__FILE__
<<
":"
<<
__LINE__
<<
":"
<<
__FUNCTION__
<<
"():
\n
"
;
ostr
<<
"* duplicate UID for different Component Outlines: '"
<<
uid
<<
"'
\n
"
;
ostr
<<
"* original file: '"
<<
oldfname
<<
"'
\n
"
;
ostr
<<
"* this file: '"
<<
fname
<<
"'"
;
errormsg
=
ostr
.
str
();
return
NULL
;
}
}
...
@@ -3940,8 +4075,12 @@ void IDF3_BOARD::Clear( void )
...
@@ -3940,8 +4075,12 @@ void IDF3_BOARD::Clear( void )
libSource
.
clear
();
libSource
.
clear
();
brdDate
.
clear
();
brdDate
.
clear
();
libDate
.
clear
();
libDate
.
clear
();
uidFileList
.
clear
();
uidLibList
.
clear
();
brdFileVersion
=
0
;
brdFileVersion
=
0
;
libFileVersion
=
0
;
libFileVersion
=
0
;
iRefDes
=
0
;
sRefDes
.
clear
();
// delete comment lists
// delete comment lists
noteComments
.
clear
();
noteComments
.
clear
();
...
...
utils/idftools/idf_parser.h
View file @
7a110d0c
...
@@ -463,6 +463,8 @@ public:
...
@@ -463,6 +463,8 @@ public:
class
IDF3_BOARD
class
IDF3_BOARD
{
{
private
:
private
:
std
::
map
<
std
::
string
,
std
::
string
>
uidFileList
;
// map of files opened and UIDs
std
::
list
<
std
::
string
>
uidLibList
;
// list of UIDs read from a library file
std
::
string
errormsg
;
// string for passing error messages to user
std
::
string
errormsg
;
// string for passing error messages to user
std
::
list
<
IDF_NOTE
*
>
notes
;
// IDF notes
std
::
list
<
IDF_NOTE
*
>
notes
;
// IDF notes
std
::
list
<
std
::
string
>
noteComments
;
// comment list for NOTES section
std
::
list
<
std
::
string
>
noteComments
;
// comment list for NOTES section
...
@@ -476,6 +478,8 @@ private:
...
@@ -476,6 +478,8 @@ private:
IDF3
::
CAD_TYPE
cadType
;
IDF3
::
CAD_TYPE
cadType
;
IDF3
::
IDF_UNIT
unit
;
IDF3
::
IDF_UNIT
unit
;
IDF3
::
IDF_VERSION
idfVer
;
// IDF version of Board or Library
IDF3
::
IDF_VERSION
idfVer
;
// IDF version of Board or Library
int
iRefDes
;
// counter for automatically numbered NOREFDES items
std
::
string
sRefDes
;
std
::
string
idfSource
;
// SOURCE string to use when writing BOARD and LIBRARY headers
std
::
string
idfSource
;
// SOURCE string to use when writing BOARD and LIBRARY headers
std
::
string
brdSource
;
// SOURCE string as retrieved from a BOARD file
std
::
string
brdSource
;
// SOURCE string as retrieved from a BOARD file
...
@@ -569,6 +573,8 @@ public:
...
@@ -569,6 +573,8 @@ public:
// end user must use only mm in the API.
// end user must use only mm in the API.
IDF3
::
IDF_UNIT
GetUnit
(
void
);
IDF3
::
IDF_UNIT
GetUnit
(
void
);
const
std
::
string
&
GetNewRefDes
(
void
);
void
SetBoardName
(
std
::
string
aBoardName
);
void
SetBoardName
(
std
::
string
aBoardName
);
const
std
::
string
&
GetBoardName
(
void
);
const
std
::
string
&
GetBoardName
(
void
);
...
@@ -692,9 +698,7 @@ public:
...
@@ -692,9 +698,7 @@ public:
// returns a pointer to a component outline object or NULL
// returns a pointer to a component outline object or NULL
// if the object doesn't exist
// if the object doesn't exist
IDF3_COMP_OUTLINE
*
GetComponentOutline
(
const
std
::
string
aGeomName
,
IDF3_COMP_OUTLINE
*
GetComponentOutline
(
wxString
aFullFileName
);
const
std
::
string
aPartName
,
wxString
aFullFileName
);
// returns a pointer to the component outline object with the
// returns a pointer to the component outline object with the
// unique ID aComponentID
// unique ID aComponentID
...
...
utils/idftools/vrml_layer.cpp
View file @
7a110d0c
...
@@ -23,17 +23,6 @@
...
@@ -23,17 +23,6 @@
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
*/
/*
* NOTES ON OUTPUT PRECISION:
*
* If we use %.6f then we have no need for special unit dependent formatting:
*
* inch: .0254 microns
* mm: 0.001 microns
* m: 1 micron
*
*/
#include <sstream>
#include <sstream>
#include <string>
#include <string>
#include <iomanip>
#include <iomanip>
...
...
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