kicad/pcbnew/export_gencad.cpp

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/***************************************************/
/* export_gencad.cpp - export en formay GenCAD 1.4 */
/***************************************************/
#include "fctsys.h"
#include "common.h"
#include "pcbnew.h"
#include "trigo.h"
#include "bitmaps.h"
#include "protos.h"
#include "id.h"
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bool CreateHeaderInfoData( FILE* file, WinEDA_PcbFrame* frame );
static int* CreateTracksInfoData( FILE* file, BOARD* pcb );
static void CreateBoardSection( FILE* file, BOARD* pcb );
static void CreateComponentsSection( FILE* file, BOARD* pcb );
static void CreateDevicesSection( FILE* file, BOARD* pcb );
static void CreateRoutesSection( FILE* file, BOARD* pcb );
static void CreateSignalsSection( FILE* file, BOARD* pcb );
static void CreateShapesSection( FILE* file, BOARD* pcb );
static void CreatePadsShapesSection( FILE* file, BOARD* pcb );
static void ModuleWriteShape( FILE* File, MODULE* module );
// layer name pour extensions fichiers de tracewxString
static const wxString GenCAD_Layer_Name[32] = {
wxT( "BOTTOM" ), wxT( "INNER1" ), wxT( "INNER2" ), wxT("INNER3" ),
wxT( "INNER4" ), wxT( "INNER5" ), wxT( "INNER6" ), wxT("INNER7" ),
wxT( "INNER8" ), wxT( "INNER9" ), wxT( "INNER10" ), wxT("INNER11" ),
wxT( "INNER12" ), wxT( "INNER13" ), wxT( "INNER14" ), wxT( "TOP" ),
wxT( "adhecu" ), wxT( "adhecmp" ), wxT( "SOLDERPASTE_BOTTOM" ), wxT("SOLDERPASTE_TOP" ),
wxT( "SILKSCREEN_BOTTOM" ), wxT( "SILKSCREEN_TOP" ), wxT( "SOLDERMASK_BOTTOM" ), wxT("SOLDERMASK_TOP" ),
wxT( "drawings" ), wxT( "comments" ), wxT( "eco1" ), wxT( "eco2" ),
wxT( "edges" ), wxT( "--" ), wxT( "--" ), wxT( "--" )
};
int offsetX, offsetY;
D_PAD* PadList;
/* routines de conversion des coord ( sous GenCAD axe Y vers le haut) */
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static int mapXto( int x )
{
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return x - offsetX;
}
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static int mapYto( int y )
{
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return offsetY - y;
}
/***********************************************************/
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void WinEDA_PcbFrame::ExportToGenCAD( wxCommandEvent& event )
/***********************************************************/
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/*
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* Exporte le board au format GenCAD 1.4
*/
{
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wxString FullFileName = GetScreen()->m_FileName;
wxString msg, std_ext, mask;
FILE* file;
std_ext = wxT( ".gcd" );
mask = wxT( "*" ) + std_ext;
ChangeFileNameExt( FullFileName, std_ext );
FullFileName = EDA_FileSelector( _( "GenCAD file:" ),
wxEmptyString, /* Chemin par defaut */
FullFileName, /* nom fichier par defaut */
std_ext, /* extension par defaut */
mask, /* Masque d'affichage */
this,
wxFD_SAVE,
FALSE
);
if( FullFileName == wxEmptyString )
return;
if( ( file = wxFopen( FullFileName, wxT( "wt" ) ) ) == NULL )
{
msg = _( "Unable to create " ) + FullFileName;
DisplayError( this, msg ); return;
}
/* Mise a jour des infos PCB: */
m_Pcb->ComputeBoundaryBox();
offsetX = m_Auxiliary_Axis_Position.x;
offsetY = m_Auxiliary_Axis_Position.y;
wxClientDC dc( DrawPanel );
DrawPanel->PrepareGraphicContext( &dc );
Compile_Ratsnest( &dc, TRUE );
/* Mise des modules vus en miroir en position "normale"
* (necessaire pour decrire les formes sous GenCAD,
* qui sont decrites en vue normale, orientation 0)) */
MODULE* module;
for( module = m_Pcb->m_Modules; module != NULL; module = module->Next() )
{
module->flag = 0;
if( module->GetLayer() == COPPER_LAYER_N )
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{
Change_Side_Module( module, NULL );
module->flag = 1;
}
}
// Creation de l'entete:
CreateHeaderInfoData( file, this );
CreateBoardSection( file, m_Pcb );
/* Creation liste des TRACKS
* (section $TRACK) id liste des outils de tracage de pistes */
CreateTracksInfoData( file, m_Pcb );
/* Creation de la liste des formes utilisees
* (formes des composants principalement */
CreatePadsShapesSection( file, m_Pcb ); // doit etre appele avant CreateShapesSection()
CreateShapesSection( file, m_Pcb );
/* Creation de la liste des equipotentielles: */
CreateSignalsSection( file, m_Pcb );
CreateDevicesSection( file, m_Pcb );
CreateComponentsSection( file, m_Pcb );
CreateRoutesSection( file, m_Pcb );
fclose( file );
/* Remise en place des modules vus en miroir */
for( module = m_Pcb->m_Modules; module != NULL; module = module->Next() )
{
if( module->flag )
{
Change_Side_Module( module, NULL );
module->flag = 0;
}
}
}
/**************************************************************************/
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static int Pad_list_Sort_by_Shapes( const void* refptr, const void* objptr )
/**************************************************************************/
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/*
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* Routine de tri de la liste des pads par type, puis pa taille
*/
{
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const D_PAD* padref, * padcmp;
int diff;
padref = *( (D_PAD**) refptr );
padcmp = *( (D_PAD**) objptr );
if( (diff = padref->m_PadShape - padcmp->m_PadShape) )
return diff;
if( (diff = padref->m_Size.x - padcmp->m_Size.x) )
return diff;
if( (diff = padref->m_Size.y - padcmp->m_Size.y) )
return diff;
if( (diff = padref->m_Offset.x - padcmp->m_Offset.x) )
return diff;
if( (diff = padref->m_Offset.y - padcmp->m_Offset.y) )
return diff;
if( (diff = padref->m_DeltaSize.x - padcmp->m_DeltaSize.x) )
return diff;
if( (diff = padref->m_DeltaSize.y - padcmp->m_DeltaSize.y) )
return diff;
return 0;
}
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/*****************************************************/
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void CreatePadsShapesSection( FILE* file, BOARD* pcb )
/*****************************************************/
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/* Cree la liste des formes des pads ( 1 forme par pad )
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* initialise le membre .m_logical_connexion de la struct pad, la valeur 1 ..n
* pour les formes de pad PAD1 a PADn
*/
{
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D_PAD* pad, ** padlist, ** pad_list_base;
char* pad_type;
int memsize, ii, dx, dy;
D_PAD* old_pad = NULL;
int pad_name_number;
fputs( "$PADS\n", file );
// Generation de la liste des pads tries par forme et dimensions:
memsize = (pcb->m_NbPads + 1) * sizeof(D_PAD *);
pad_list_base = (D_PAD**) MyZMalloc( memsize );
memcpy( pad_list_base, pcb->m_Pads, memsize );
qsort( pad_list_base, pcb->m_NbPads, sizeof(D_PAD *), Pad_list_Sort_by_Shapes );
pad_name_number = 0;
for( padlist = pad_list_base, ii = 0; ii < pcb->m_NbPads; padlist++, ii++ )
{
pad = *padlist;
pad->m_logical_connexion = pad_name_number;
if( old_pad
&& (old_pad->m_PadShape == pad->m_PadShape)
&& (old_pad->m_Size.x == pad->m_Size.x)
&& (old_pad->m_Size.y == pad->m_Size.y)
&& (old_pad->m_Offset.x == pad->m_Offset.x)
&& (old_pad->m_Offset.y == pad->m_Offset.y)
&& (old_pad->m_DeltaSize.x == pad->m_DeltaSize.x)
&& (old_pad->m_DeltaSize.y == pad->m_DeltaSize.y)
)
continue; // Forme deja generee
old_pad = pad;
pad_name_number++;
pad->m_logical_connexion = pad_name_number;
fprintf( file, "PAD PAD%d", pad->m_logical_connexion );
dx = pad->m_Size.x / 2; dy = pad->m_Size.y / 2;
switch( pad->m_PadShape )
{
default:
case CIRCLE:
pad_type = "ROUND";
fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x );
fprintf( file, "CIRCLE %d %d %d\n",
pad->m_Offset.x, -pad->m_Offset.y, pad->m_Size.x / 2 );
break;
case RECT:
pad_type = "RECTANGULAR";
fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x );
fprintf( file, "RECTANGLE %d %d %d %d\n",
-dx + pad->m_Offset.x, -dy - pad->m_Offset.y,
dx + pad->m_Offset.x, -pad->m_Offset.y + dy );
break;
case OVALE: /* description du contour par 2 linges et 2 arcs */
{
pad_type = "FINGER";
fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x );
int dr = dx - dy;
if( dr >= 0 ) // ovale horizontal
{
int rayon = dy;
fprintf( file, "LINE %d %d %d %d\n",
-dr + pad->m_Offset.x, -pad->m_Offset.y - rayon,
dr + pad->m_Offset.x, -pad->m_Offset.y - rayon );
fprintf( file, "ARC %d %d %d %d %d %d\n",
dr + pad->m_Offset.x, -pad->m_Offset.y - rayon,
dr + pad->m_Offset.x, -pad->m_Offset.y + rayon,
dr + pad->m_Offset.x, -pad->m_Offset.y );
fprintf( file, "LINE %d %d %d %d\n",
dr + pad->m_Offset.x, -pad->m_Offset.y + rayon,
-dr + pad->m_Offset.x, -pad->m_Offset.y + rayon );
fprintf( file, "ARC %d %d %d %d %d %d\n",
-dr + pad->m_Offset.x, -pad->m_Offset.y + rayon,
-dr + pad->m_Offset.x, -pad->m_Offset.y - rayon,
-dr + pad->m_Offset.x, -pad->m_Offset.y );
}
else // ovale vertical
{
dr = -dr;
int rayon = dx;
fprintf( file, "LINE %d %d %d %d\n",
-rayon + pad->m_Offset.x, -pad->m_Offset.y - dr,
-rayon + pad->m_Offset.x, -pad->m_Offset.y + dr );
fprintf( file, "ARC %d %d %d %d %d %d\n",
-rayon + pad->m_Offset.x, -pad->m_Offset.y + dr,
rayon + pad->m_Offset.x, -pad->m_Offset.y + dr,
pad->m_Offset.x, -pad->m_Offset.y + dr );
fprintf( file, "LINE %d %d %d %d\n",
rayon + pad->m_Offset.x, -pad->m_Offset.y + dr,
rayon + pad->m_Offset.x, -pad->m_Offset.y - dr );
fprintf( file, "ARC %d %d %d %d %d %d\n",
rayon + pad->m_Offset.x, -pad->m_Offset.y - dr,
-rayon + pad->m_Offset.x, -pad->m_Offset.y - dr,
pad->m_Offset.x, -pad->m_Offset.y - dr );
}
break;
}
case TRAPEZE:
pad_type = "POLYGON";
break;
}
}
fputs( "$ENDPADS\n\n", file );
MyFree( pad_list_base );
}
/**************************************************/
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void CreateShapesSection( FILE* file, BOARD* pcb )
/**************************************************/
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/* Creation de la liste des formes des composants.
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* Comme la forme de base (module de librairie peut etre modifiee,
* une forme est creee par composant
* La forme est donnee normalisee, c'est a dire orientation 0, position 0 non miroir
* Il y aura donc des formes indentiques redondantes
*
* Syntaxe:
* $SHAPES
* SHAPE <shape_name>
* shape_descr (line, arc ..)
* PIN <pin_name> <pad_name> <x_y_ref> <layer> <rot> <mirror>
*
* SHAPE <shape_name>
* ..
* $ENDSHAPES
*/
{
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MODULE* module;
D_PAD* pad;
char* layer;
int orient;
wxString pinname;
char* mirror = "0";
fputs( "$SHAPES\n", file );
for( module = pcb->m_Modules; module != NULL; module = (MODULE*) module->Pnext )
{
ModuleWriteShape( file, module );
for( pad = module->m_Pads; pad != NULL; pad = (D_PAD*) pad->Pnext )
{
layer = "ALL";
if( (pad->m_Masque_Layer & ALL_CU_LAYERS) == CUIVRE_LAYER )
{
if( module->GetLayer() == CMP_N )
layer = "BOTTOM";
else
layer = "TOP";
}
else if( (pad->m_Masque_Layer & ALL_CU_LAYERS) == CMP_LAYER )
{
if( module->GetLayer() == CMP_N )
layer = "TOP";
else
layer = "BOTTOM";
}
pad->ReturnStringPadName( pinname );
if( pinname.IsEmpty() )
pinname = wxT( "noname" );
orient = pad->m_Orient - module->m_Orient;
NORMALIZE_ANGLE_POS( orient );
fprintf( file, "PIN %s PAD%d %d %d %s %d %s",
CONV_TO_UTF8( pinname ), pad->m_logical_connexion,
pad->m_Pos0.x, -pad->m_Pos0.y,
layer, orient / 10, mirror );
if( orient % 10 )
fprintf( file, " .%d", orient % 10 );
fprintf( file, "\n" );
}
}
fputs( "$ENDSHAPES\n\n", file );
}
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/******************************************************/
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void CreateComponentsSection( FILE* file, BOARD* pcb )
/******************************************************/
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/* Creation de la section $COMPONENTS (Placement des composants
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* Composants cote CUIVRE:
* Les formes sont donnees avec l'option "FLIP", c.a.d.:
* - ils sont decrits en vue normale (comme s'ils etaient sur cote COMPOSANT)
* - leur orientation est donn<EFBFBD>e comme s'ils etaient cote composant.
*/
{
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MODULE* module = pcb->m_Modules;
TEXTE_MODULE* PtTexte;
char* mirror;
char* flip;
int ii;
fputs( "$COMPONENTS\n", file );
for( ; module != NULL; module = (MODULE*) module->Pnext )
{
int orient = module->m_Orient;
if( module->flag )
{
mirror = "MIRRORX"; // Miroir selon axe X
flip = "FLIP"; // Description normale ( formes a afficher en miroir X)
NEGATE_AND_NORMALIZE_ANGLE_POS( orient );
}
else
{
mirror = "0";
flip = "0";
}
fprintf( file, "COMPONENT %s\n", CONV_TO_UTF8( module->m_Reference->m_Text ) );
fprintf( file, "DEVICE %s\n", CONV_TO_UTF8( module->m_Reference->m_Text ) );
fprintf( file, "PLACE %d %d\n", mapXto( module->m_Pos.x ), mapYto( module->m_Pos.y ) );
fprintf( file, "LAYER %s\n", (module->flag) ? "BOTTOM" : "TOP" );
fprintf( file, "ROTATION %d", orient / 10 );
if( orient % 10 )
fprintf( file, ".%d", orient % 10 );
fputs( "\n", file );
fprintf( file, "SHAPE %s %s %s\n",
CONV_TO_UTF8( module->m_Reference->m_Text ), mirror, flip );
/* Generation des elements textes (ref et valeur seulement) */
PtTexte = module->m_Reference;
for( ii = 0; ii < 2; ii++ )
{
int orient = PtTexte->m_Orient;
wxString layer = GenCAD_Layer_Name[SILKSCREEN_N_CMP];
fprintf( file, "TEXT %d %d %d %d.%d %s %s \"%s\"",
PtTexte->m_Pos0.x, -PtTexte->m_Pos0.y,
PtTexte->m_Size.x,
orient / 10, orient % 10,
mirror,
CONV_TO_UTF8( layer ),
CONV_TO_UTF8( PtTexte->m_Text )
);
fprintf( file, " 0 0 %d %d\n",
(int) ( PtTexte->m_Size.x * PtTexte->m_Text.Len() ),
(int) PtTexte->m_Size.y );
PtTexte = module->m_Value;
}
// commentaire:
fprintf( file, "SHEET Part %s %s\n", CONV_TO_UTF8( module->m_Reference->m_Text ),
CONV_TO_UTF8( module->m_Value->m_Text ) );
}
fputs( "$ENDCOMPONENTS\n\n", file );
}
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/***************************************************/
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void CreateSignalsSection( FILE* file, BOARD* pcb )
/***************************************************/
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/* Creation de la liste des equipotentielles:
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* $SIGNALS
* SIGNAL <equipot name>
* NODE <component name> <pin name>
* ...
* NODE <component name> <pin name>
* $ENDSIGNALS
*/
{
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wxString msg;
EQUIPOT* equipot;
D_PAD* pad;
MODULE* module;
int NbNoConn = 1;
fputs( "$SIGNALS\n", file );
for( equipot = pcb->m_Equipots; equipot != NULL; equipot = (EQUIPOT*) equipot->Pnext )
{
if( equipot->m_Netname == wxEmptyString ) // dummy equipot (non connexion)
{
equipot->m_Netname << wxT( "NoConnection" ) << NbNoConn++;
}
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if( equipot->GetNet() <= 0 ) // dummy equipot (non connexion)
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continue;
msg = wxT( "\nSIGNAL " ) + equipot->m_Netname;
fputs( CONV_TO_UTF8( msg ), file ); fputs( "\n", file );
for( module = pcb->m_Modules; module != NULL; module = (MODULE*) module->Pnext )
{
for( pad = module->m_Pads; pad != NULL; pad = (D_PAD*) pad->Pnext )
{
wxString padname;
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if( pad->GetNet() != equipot->GetNet() )
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continue;
pad->ReturnStringPadName( padname );
msg.Printf( wxT( "NODE %s %.4s" ),
module->m_Reference->m_Text.GetData(), padname.GetData() );
fputs( CONV_TO_UTF8( msg ), file ); fputs( "\n", file );
}
}
}
fputs( "$ENDSIGNALS\n\n", file );
}
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/*************************************************************/
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bool CreateHeaderInfoData( FILE* file, WinEDA_PcbFrame* frame )
/*************************************************************/
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/* Creation de la section $HEADER ... $ENDHEADER
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*/
{
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wxString msg;
PCB_SCREEN* screen = frame->GetScreen();
fputs( "$HEADER\n", file );
fputs( "GENCAD 1.4\n", file );
msg = wxT( "USER " ) + g_Main_Title + wxT( " " ) + GetBuildVersion();
fputs( CONV_TO_UTF8( msg ), file ); fputs( "\n", file );
msg = wxT( "DRAWING " ) + screen->m_FileName;
fputs( CONV_TO_UTF8( msg ), file ); fputs( "\n", file );
msg = wxT( "REVISION " ) + screen->m_Revision + wxT( " " ) + screen->m_Date;
fputs( CONV_TO_UTF8( msg ), file ); fputs( "\n", file );
msg.Printf( wxT( "UNITS USER %d" ), PCB_INTERNAL_UNIT );
fputs( CONV_TO_UTF8( msg ), file ); fputs( "\n", file );
msg.Printf( wxT( "ORIGIN %d %d" ), mapXto( frame->m_Auxiliary_Axis_Position.x ),
mapYto( frame->m_Auxiliary_Axis_Position.y ) );
fputs( CONV_TO_UTF8( msg ), file ); fputs( "\n", file );
fputs( "INTERTRACK 0\n", file );
fputs( "$ENDHEADER\n\n", file );
return TRUE;
}
/**************************************************************************/
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static int Track_list_Sort_by_Netcode( const void* refptr, const void* objptr )
/**************************************************************************/
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/*
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* Routine de tri de la liste des piste par netcode,
* puis par largeur puis par layer
*/
{
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const TRACK* ref, * cmp;
int diff;
ref = *( (TRACK**) refptr );
cmp = *( (TRACK**) objptr );
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if( (diff = ref->GetNet() - cmp->GetNet()) )
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return diff;
if( (diff = ref->m_Width - cmp->m_Width) )
return diff;
if( (diff = ref->GetLayer() - cmp->GetLayer()) )
return diff;
return 0;
}
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/*************************************************/
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void CreateRoutesSection( FILE* file, BOARD* pcb )
/*************************************************/
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/* Creation de la liste des pistes, vias et zones
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* section:
* $ROUTE
* ...
* $ENROUTE
* Les segments de piste doivent etre regroupes par nets
*/
{
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TRACK* track, ** tracklist;
int vianum = 1;
int old_netcode, old_width, old_layer;
int nbitems, ii;
// Calcul du nombre de segments a ecrire
nbitems = 0;
for( track = pcb->m_Track; track != NULL; track = (TRACK*) track->Pnext )
nbitems++;
for( track = pcb->m_Zone; track != NULL; track = (TRACK*) track->Pnext )
{
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if( track->Type() == TYPEZONE )
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nbitems++;
}
tracklist = (TRACK**) MyMalloc( (nbitems + 1) * sizeof(TRACK *) );
nbitems = 0;
for( track = pcb->m_Track; track != NULL; track = (TRACK*) track->Pnext )
tracklist[nbitems++] = track;
for( track = pcb->m_Zone; track != NULL; track = (TRACK*) track->Pnext )
{
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if( track->Type() == TYPEZONE )
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tracklist[nbitems++] = track;
}
tracklist[nbitems] = NULL;
qsort( tracklist, nbitems, sizeof(TRACK *), Track_list_Sort_by_Netcode );
fputs( "$ROUTES\n", file );
old_netcode = -1; old_width = -1; old_layer = -1;
for( ii = 0; ii < nbitems; ii++ )
{
track = tracklist[ii];
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if( old_netcode != track->GetNet() )
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{
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old_netcode = track->GetNet();
EQUIPOT* equipot = pcb->FindNet( track->GetNet() );
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wxString netname;
if( equipot && (equipot->m_Netname != wxEmptyString) )
netname = equipot->m_Netname;
else
netname = wxT( "_noname_" );
fprintf( file, "\nROUTE %s\n", CONV_TO_UTF8( netname ) );
}
if( old_width != track->m_Width )
{
old_width = track->m_Width;
fprintf( file, "TRACK TRACK%d\n", track->m_Width );
}
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if( (track->Type() == TYPETRACK) || (track->Type() == TYPEZONE) )
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{
if( old_layer != track->GetLayer() )
{
old_layer = track->GetLayer();
fprintf( file, "LAYER %s\n",
CONV_TO_UTF8( GenCAD_Layer_Name[track->GetLayer() & 0x1F] ) );
}
fprintf( file, "LINE %d %d %d %d\n",
mapXto( track->m_Start.x ), mapYto( track->m_Start.y ),
mapXto( track->m_End.x ), mapYto( track->m_End.y ) );
}
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if( track->Type() == TYPEVIA )
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{
fprintf( file, "VIA viapad%d %d %d ALL %d via%d\n",
track->m_Width,
mapXto( track->m_Start.x ), mapYto( track->m_Start.y ),
g_DesignSettings.m_ViaDrill, vianum++ );
}
}
fputs( "$ENDROUTES\n\n", file );
free( tracklist );
}
/***************************************************/
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void CreateDevicesSection( FILE* file, BOARD* pcb )
/***************************************************/
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/* Creation de la section de description des proprietes des composants
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* ( la forme des composants est dans la section shape )
*/
{
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MODULE* module;
D_PAD* pad;
fputs( "$DEVICES\n", file );
for( module = pcb->m_Modules; module != NULL; module = (MODULE*) module->Pnext )
{
fprintf( file, "DEVICE %s\n", CONV_TO_UTF8( module->m_Reference->m_Text ) );
fprintf( file, "PART %s\n", CONV_TO_UTF8( module->m_LibRef ) );
fprintf( file, "TYPE %s\n", "UNKNOWN" );
for( pad = module->m_Pads; pad != NULL; pad = (D_PAD*) pad->Pnext )
{
fprintf( file, "PINDESCR %.4s", pad->m_Padname );
if( pad->m_Netname == wxEmptyString )
fputs( " NoConn\n", file );
else
fprintf( file, " %.4s\n", pad->m_Padname );
}
fprintf( file, "ATTRIBUTE %s\n", CONV_TO_UTF8( module->m_Value->m_Text ) );
}
fputs( "$ENDDEVICES\n\n", file );
}
/*************************************************/
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void CreateBoardSection( FILE* file, BOARD* pcb )
/*************************************************/
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/* Creation de la section $BOARD.
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* On ne cree ici que le rectangle d'encadrement du Board
*/
{
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fputs( "$BOARD\n", file );
fprintf( file, "LINE %d %d %d %d\n",
mapXto( pcb->m_BoundaryBox.m_Pos.x ), mapYto( pcb->m_BoundaryBox.m_Pos.y ),
mapXto( pcb->m_BoundaryBox.GetRight() ), mapYto( pcb->m_BoundaryBox.m_Pos.y ) );
fprintf( file, "LINE %d %d %d %d\n",
mapXto( pcb->m_BoundaryBox.GetRight() ), mapYto( pcb->m_BoundaryBox.m_Pos.y ),
mapXto( pcb->m_BoundaryBox.GetRight() ), mapYto( pcb->m_BoundaryBox.GetBottom() ) );
fprintf( file, "LINE %d %d %d %d\n",
mapXto( pcb->m_BoundaryBox.GetRight() ), mapYto( pcb->m_BoundaryBox.GetBottom() ),
mapXto( pcb->m_BoundaryBox.m_Pos.x ), mapYto( pcb->m_BoundaryBox.GetBottom() ) );
fprintf( file, "LINE %d %d %d %d\n",
mapXto( pcb->m_BoundaryBox.m_Pos.x ), mapYto( pcb->m_BoundaryBox.GetBottom() ),
mapXto( pcb->m_BoundaryBox.m_Pos.x ), mapYto( pcb->m_BoundaryBox.m_Pos.y ) );
fputs( "$ENDBOARD\n\n", file );
}
/****************************************************/
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int* CreateTracksInfoData( FILE* file, BOARD* pcb )
/****************************************************/
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/* Creation de la section "$TRACKS"
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* Cette section definit les largeurs de pistes utilsees
* format:
* $TRACK
* TRACK <name> <width>
* $ENDTRACK
*
* on attribut ici comme nom l'epaisseur des traits precede de "TRACK": ex
* pour une largeur de 120 : nom = "TRACK120".
*/
{
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TRACK* track;
int* trackinfo, * ptinfo;
/* recherche des epaisseurs utilisees pour les traces: */
trackinfo = (int*) adr_lowmem;
*trackinfo = -1;
for( track = pcb->m_Track; track != NULL; track = (TRACK*) track->Pnext )
{
if( *trackinfo != track->m_Width ) // recherche d'une epaisseur deja utilisee
{
ptinfo = (int*) adr_lowmem;
while( *ptinfo >= 0 )
{
if( *ptinfo != track->m_Width )
ptinfo++;
else
break;
}
trackinfo = ptinfo;
if( *ptinfo < 0 )
{
*ptinfo = track->m_Width;
ptinfo++; *ptinfo = -1;
}
}
}
for( track = pcb->m_Zone; track != NULL; track = (TRACK*) track->Pnext )
{
if( *trackinfo != track->m_Width ) // recherche d'une epaisseur deja utilisee
{
ptinfo = (int*) adr_lowmem;
while( *ptinfo >= 0 )
{
if( *ptinfo != track->m_Width )
ptinfo++;
else
break;
}
trackinfo = ptinfo;
if( *ptinfo < 0 )
{
*ptinfo = track->m_Width;
ptinfo++; *ptinfo = -1;
}
}
}
// Write data
fputs( "$TRACKS\n", file );
for( trackinfo = (int*) adr_lowmem; *trackinfo >= 0; trackinfo++ )
{
fprintf( file, "TRACK TRACK%d %d\n", *trackinfo, *trackinfo );
}
fputs( "$ENDTRACKS\n\n", file );
return (int*) adr_lowmem;
}
/***************************************************/
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void ModuleWriteShape( FILE* file, MODULE* module )
/***************************************************/
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/* Sauvegarde de la forme d'un MODULE (section SHAPE)
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* La forme est donnee "normalisee" (Orient 0, vue normale ( non miroir)
* Syntaxe:
* SHAPE <shape_name>
* shape_descr (line, arc ..):
* LINE startX startY endX endY
* ARC startX startY endX endY centreX scentreY
* CIRCLE centreX scentreY radius
*/
{
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EDGE_MODULE* PtEdge;
EDA_BaseStruct* PtStruct;
int Yaxis_sign = -1; // Controle changement signe axe Y (selon module normal/miroir et conevtions d'axe)
/* Generation du fichier module: */
fprintf( file, "\nSHAPE %s\n", CONV_TO_UTF8( module->m_Reference->m_Text ) );
/* Attributs du module */
if( module->m_Attributs != MOD_DEFAULT )
{
fprintf( file, "ATTRIBUTE" );
if( module->m_Attributs & MOD_CMS )
fprintf( file, " SMD" );
if( module->m_Attributs & MOD_VIRTUAL )
fprintf( file, " VIRTUAL" );
fprintf( file, "\n" );
}
/* Generation des elements Drawing modules */
PtStruct = module->m_Drawings;
for( ; PtStruct != NULL; PtStruct = PtStruct->Pnext )
{
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switch( PtStruct->Type() )
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{
case TYPETEXTEMODULE:
break;
case TYPEEDGEMODULE:
PtEdge = (EDGE_MODULE*) PtStruct;
switch( PtEdge->m_Shape )
{
case S_SEGMENT:
fprintf( file, "LINE %d %d %d %d\n",
PtEdge->m_Start0.x, Yaxis_sign * PtEdge->m_Start0.y,
PtEdge->m_End0.x, Yaxis_sign * PtEdge->m_End0.y );
break;
case S_CIRCLE:
{
int rayon = (int) hypot(
(double) (PtEdge->m_End0.x - PtEdge->m_Start0.x),
(double) (PtEdge->m_End0.y - PtEdge->m_Start0.y) );
fprintf( file, "CIRCLE %d %d %d\n",
PtEdge->m_Start0.x, Yaxis_sign * PtEdge->m_Start0.y,
rayon );
break;
}
case S_ARC: /* print ARC x,y start x,y end x,y centre */
{
int arcendx, arcendy;
arcendx = PtEdge->m_Start0.x;
arcendy = PtEdge->m_Start0.y;
RotatePoint( &arcendx, &arcendy, PtEdge->m_Angle );
fprintf( file, "ARC %d %d %d %d %d %d\n",
PtEdge->m_End0.x, Yaxis_sign * PtEdge->m_End0.y,
arcendx, Yaxis_sign * arcendy,
PtEdge->m_Start0.x, Yaxis_sign * PtEdge->m_Start0.y );
break;
}
default:
DisplayError( NULL, wxT( "Type Edge Module inconnu" ) );
break;
}
/* Fin switch type edge */
break;
default:
break;
}
/* Fin switch gestion des Items draw */
}
}