kicad/cvpcb/readschematicnetlist.cpp

366 lines
8.7 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/***************************/
/* readschematicnetlist.cpp*/
/***************************/
/* convertit la netliste ORCADPCB en netliste ORCADPCB (fichier temporaire)
assure la raffectation des alimentations selon le format :
( XXXXXX VALEUR|(pin1,pin2,...=newalim) ID VALEUR
*/
#include "fctsys.h"
#include "wxstruct.h"
#include "common.h"
#include "cvpcb.h"
#include "protos.h"
#define SEPARATEUR '|' /* caractere separateur dans netliste */
/* routines locales : */
static int pin_orcad(STORECMP * CurrentCmp);
/************************************************/
int WinEDA_CvpcbFrame::ReadSchematicNetlist(void)
/************************************************/
{
int i , j , k ,l ;
char * LibName;
char Line[1024];
char component_reference[80] ; /* buffer des references composants */
char ref_schema[80] ; /* buffer de la ref schematique */
char footprint_name[80] ; /* buffer des ref.lib */
char component_value[80] ; /* buffer des valeurs */
char *ptchar ; /* pointeur de service */
STORECMP * Cmp;
modified = 0;
Rjustify = 0;
g_FlagEESchema = FALSE;
/* Raz buffer et variable de gestion */
if( g_BaseListeCmp ) FreeMemoryComponants();
/* Ouverture du fichier source */
source = wxFopen(FFileName, wxT("rt"));
if (source == 0)
{
wxString msg;
msg.Printf( _("File <%s> not found"),FFileName.GetData());
DisplayError(this, msg); return(-1);
}
/* Read the file header (must be "( { OrCAD PCB" or "({ OrCAD PCB" ) */
/* or "# EESchema Netliste"*/
fgets(Line,255,source) ;
/* test for netlist type PCB2 */
i = strnicmp(Line,"( {",3) ;
if( i != 0 )
i = strnicmp(Line,"({",2) ;
if( i != 0 )
{
i = strnicmp(Line,"# EESchema",7) ; /* net type EESchema */
if( i == 0 ) g_FlagEESchema = TRUE;
}
if ( i != 0 )
{
wxString msg, Lineconv = CONV_FROM_UTF8(Line);
msg.Printf( _("Unknown file format <%s>"), Lineconv.GetData());
DisplayError(this, msg);
fclose(source); return(-3) ;
}
SetStatusText( _("Netlist Format: EESchema"), 0);
/* Lecture de la liste */
for (;;)
{
/* recherche du debut de la description d'un composant */
if( fgets(Line,255,source) == 0 ) break;
/* Remove blanks */
i = 0 ; while (Line[i] == ' ') i++ ;
/* elimination des lignes vides : */
if (Line[i] < ' ') continue ;
if (strnicmp(&Line[i],"{ Allowed footprints", 20 ) == 0 )
{
ReadFootprintFilterList(source);
continue;
}
if (strnicmp(&Line[i],"( ",2) != 0) continue ;
/****************************/
/* debut description trouve */
/****************************/
/* memo ident schema */
while ( Line[i] != ' ') i++ ;
while ( Line[i] == ' ') i++ ; /* i pointe 1er caractere de l'ident schema */
j = 0 ; while ( Line[i] != ' ') ref_schema[j++] = Line[i++] ;
ref_schema[j] = 0 ;
/* recherche val/ref.lib */
while ( Line[i] == ' ') i++ ; /* i pointe la valeur du composant */
LibName = Line + i;
memset(component_reference, 0, sizeof(component_reference));
memset(footprint_name, 0, sizeof(footprint_name) ) ;
memset(component_value, 0, sizeof(component_value) ) ;
memset(alim, 0, sizeof(alim) ) ;
/* lecture valeur du composant */
/* recherche fin de valeur (' ') */
ptchar = strstr(&Line[i]," ") ;
if (ptchar == 0)
{
wxString msg;
msg.Printf( _("Netlist error: %s"),Line) ;
DisplayError(NULL, msg);
k = 0 ;
}
else k = ptchar - Line ;
for (j = 0 ; i < k ; i++)
{
if ( Line[i] == SEPARATEUR ) break ;
if ( j < (int)(sizeof(footprint_name)-1) )
footprint_name[j++] = Line[i] ;
}
if ( (Line[++i] == '(') && (Line[k-1] == ')' ) )
{
i++ ; l = 0 ; while ( k-1 > i ) alim[l++] = Line[i++] ;
}
else i = k ;
/* recherche reference du composant */
while(Line[i] != ' ') i++ ; /* elimination fin valeur */
while(Line[i] == ' ') i++ ; /* recherche debut reference */
/* debut reference trouv */
for ( k = 0 ; k < (int)(sizeof(component_reference)-1) ; i++ , k++ )
{
if ( Line[i] <= ' ' ) break ;
component_reference[k] = Line[i] ;
}
/* recherche valeur du composant */
while(Line[i] == ' ') i++ ; /* recherche debut valeur */
/* debut vraie valeur trouvee */
for ( k = 0 ; k < (int)(sizeof(component_value)-1) ; i++ , k++ )
{
if ( Line[i] <= ' ' ) break ;
component_value[k] = Line[i] ;
}
/* classement du composant ,suivi de sa valeur */
Cmp = new STORECMP();
Cmp->Pnext = g_BaseListeCmp;
g_BaseListeCmp = Cmp;
Cmp->m_Reference = CONV_FROM_UTF8(component_reference);
Cmp->m_Valeur = CONV_FROM_UTF8(component_value) ;
if( g_FlagEESchema ) /* Copie du nom module: */
{
if( strnicmp(LibName, "$noname", 7 ) != 0 )
{
while( *LibName > ' ' )
{
Cmp->m_Module.Append(*LibName);
LibName++;
}
}
}
/* classement du TimeStamp */
Cmp->m_TimeStamp = CONV_FROM_UTF8(ref_schema);
pin_orcad( Cmp) ;
nbcomp++ ;
}
fclose(source);
/* reclassement alpabetique : */
g_BaseListeCmp = TriListeComposantss( g_BaseListeCmp, nbcomp);
return(0);
}
/********************************************************/
int WinEDA_CvpcbFrame::ReadFootprintFilterList( FILE * f)
/********************************************************/
{
char Line[1024];
wxString CmpRef;
STORECMP * Cmp = NULL;
for (;;)
{
if( fgets(Line,255,source) == 0 ) break;
if (strnicmp(Line,"$endlist", 8 ) == 0 )
{
Cmp = NULL;
continue;
}
if (strnicmp(Line,"$endfootprintlist", 4 ) == 0 ) return 0;
if (strnicmp(Line,"$component", 10 ) == 0 ) // New component ref found
{
CmpRef = CONV_FROM_UTF8(Line+11);
CmpRef.Trim(TRUE); CmpRef.Trim(FALSE);
/* Search the new component in list */
for ( Cmp = g_BaseListeCmp; Cmp != NULL; Cmp = Cmp->Pnext )
{
if ( Cmp->m_Reference == CmpRef) break;
}
}
else if ( Cmp )
{
wxString fp = CONV_FROM_UTF8(Line+1);
fp.Trim(FALSE); fp.Trim(TRUE);
Cmp->m_FootprintFilter.Add(fp);
}
}
return 1;
}
/***********************************/
int pin_orcad(STORECMP * Cmp)
/***********************************/
{
int i , jj;
char numpin[9] , net[1024] ;
char Line[1024];
STOREPIN * Pin = NULL;
STOREPIN ** LastPin = & Cmp->m_Pins;
for ( ;; )
{
/* debut description trouv */
for ( ;; )
{
if ( fgets(Line,80,source) == 0 ) return(-1) ;
/* suppression des blancs en dbut de ligne */
i = 0 ; while (Line[i] == ' ') i++ ;
while (Line[i] == '(') i++ ;
while (Line[i] == ' ') i++ ;
/* elimination des lignes vides : */
if (Line[i] < ' ') continue ;
/* fin de description ? */
if (Line[i] == ')' ) return(0) ;
memset( net, 0, sizeof(net) );
memset( numpin, 0, sizeof(numpin) );
/* lecture name pin , 4 lettres */
for (jj = 0 ; jj < 4 ; jj++ , i++)
{
if ( Line[i] == ' ' ) break ;
numpin[jj] = Line[i] ;
}
/* recherche affectation force de net */
if ( reaffect(numpin,net) != 0)
{
Pin = new STOREPIN();
*LastPin = Pin; LastPin = &Pin->Pnext;
Pin->m_PinNum = CONV_FROM_UTF8(numpin);
Pin->m_PinNet = CONV_FROM_UTF8(net);
continue ;
}
/* recherche netname */
while(Line[i] == ' ') i++ ; /* recherche debut reference */
/* debut netname trouv */
for ( jj = 0 ; jj < (int)sizeof(net)-1 ; i++ , jj++ )
{
if ( Line[i] <= ' ' ) break ;
net[jj] = Line[i] ;
}
Pin = new STOREPIN();
*LastPin = Pin; LastPin = &Pin->Pnext;
Pin->m_PinNum = CONV_FROM_UTF8(numpin);
Pin->m_PinNet = CONV_FROM_UTF8(net);
}
}
}
/****************************************************************/
STORECMP * TriListeComposantss(STORECMP * BaseListe, int nbitems)
/****************************************************************/
/* Tri la liste des composants par ordre alphabetique et me a jour
le nouveau chainage avant/arriere
retourne un pointeur sur le 1er element de la liste
*/
{
STORECMP ** bufferptr, * Item;
int ii;
if (nbitems <= 0 ) return(NULL);
bufferptr = (STORECMP**)MyZMalloc( (nbitems+2) * sizeof(STORECMP*) );
for( ii= 1, Item = BaseListe; Item != NULL; Item = Item->Pnext, ii++)
{
bufferptr[ii] = Item;
}
/* ici bufferptr[0] = NULL et bufferptr[nbitem+1] = NULL et ces 2 valeurs
representent le chainage arriere du 1er element, et le chainage avant
du dernier element */
qsort(bufferptr+1,nbitems,sizeof(STORECMP*),
(int(*)(const void*,const void*))CmpCompare) ;
/* Mise a jour du chainage */
for( ii = 1; ii <= nbitems; ii++ )
{
Item = bufferptr[ii];
Item->m_Num = ii;
Item->Pnext = bufferptr[ii+1];
Item->Pback = bufferptr[ii-1];
}
return(bufferptr[1]);
}
/****************************************/
int CmpCompare(void * mod1, void * mod2)
/****************************************/
/*
routine compare() pour qsort() en classement alphabetique des composants
*/
{
int ii;
STORECMP *pt1 , *pt2 ;
pt1 = * ((STORECMP**)mod1);
pt2 = * ((STORECMP**)mod2);
//FIXME:
ii = StrNumICmp( (const wxChar*) pt1->m_Reference, (const wxChar*) pt2->m_Reference );
return(ii);
}