/****************************/ /* readschematicnetlist.cpp */ /****************************/ /* Read a nelist type Eeschema or OrcadPCB2 and build the component list * Manages the lines like : * ( XXXXXX VALEUR|(pin1,pin2,...=newalim) ID VALEUR */ #include "fctsys.h" #include "wxstruct.h" #include "common.h" #include "confirm.h" #include "kicad_string.h" #include "macros.h" #include "cvpcb.h" #include "protos.h" #include "cvstruct.h" #define SEPARATEUR '|' /* caractere separateur dans netliste */ /* routines locales : */ static int ReadPinConnection( FILE* f, COMPONENT* CurrentCmp ); /* Tri la liste des composants par ordre alphabetique et met a jour le nouveau * chainage avant/arriere retourne un pointeur sur le 1er element de la liste */ #define BUFFER_CHAR_SIZE 1024 // Size of buffers used to store netlist data /** * Function ReadSchematicNetlist * Read a Eeschema (or OrcadPCB) netlist * like: * # EESchema Netlist Version 1.1 created 15/5/2008-12:09:21 * ( * ( /32568D1E $noname JP1 CONN_8X2 {Lib=CONN_8X2} * ( 1 GND ) * ( 2 /REF10 ) * ( 3 GND ) * ( 4 /REF11 ) * ( 5 GND ) * ( 6 /REF7 ) * ( 7 GND ) * ( 8 /REF9 ) * ( 9 GND ) * ( 10 /REF6 ) * ( 11 GND ) * ( 12 /REF8 ) * ( 13 GND ) * ( 14 /REF4 ) * ( 15 GND ) * ( 16 /REF5 ) * ) * ( /325679C1 $noname RR1 9x1K {Lib=RR9} * ( 1 VCC ) * ( 2 /REF5 ) * ( 3 /REF4 ) * ( 4 /REF8 ) * ( 5 /REF6 ) * ( 6 /REF9 ) * ( 7 /REF7 ) * ( 8 /REF11 ) * ( 9 /REF10 ) * ( 10 ? ) * ) * ) * * * { Allowed footprints by component: * $component R5 * R? * SM0603 * SM0805 * $endlist * $component C2 * SM* * C? * C1-1 * $endlist * $endfootprintlist * } */ int WinEDA_CvpcbFrame::ReadSchematicNetlist() { char alim[1024]; int i, k, l; char* LibName; char Line[BUFFER_CHAR_SIZE + 1]; wxString component_reference; /* buffer for component reference (U1, R4...) */ wxString schematic_timestamp; /* buffer for component time stamp */ wxString footprint_name; /* buffer for component footprint field */ wxString component_value; /* buffer for component values (470K, 22nF ...) */ char* ptchar; COMPONENT* Cmp; FILE* source; m_modified = false; m_isEESchemaNetlist = false; /* Clear components buffer */ if( !m_components.empty() ) { m_components.clear(); } source = wxFopen( m_NetlistFileName.GetFullPath(), wxT( "rt" ) ); if( source == 0 ) { DisplayError( this, _( "File <" ) + m_NetlistFileName.GetFullPath() + _( "> not found" ) ); return -1; } /* Read the file header (must be "( { OrCAD PCB" or "({ OrCAD PCB" ) * or "# EESchema Netliste" */ (void) fgets( Line, BUFFER_CHAR_SIZE, 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 ) m_isEESchemaNetlist = 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 ); /* Read the netlist */ for( ; ; ) { /* Search the beginning of a component description */ if( fgets( Line, BUFFER_CHAR_SIZE, source ) == 0 ) break; /* Remove blanks */ i = 0; while( Line[i] == ' ' ) i++; /* remove empty lines : */ if( Line[i] < ' ' ) continue; if( strnicmp( &Line[i], "{ Allowed footprints", 20 ) == 0 ) { ReadFootprintFilterList( source ); continue; } if( strnicmp( &Line[i], "( ", 2 ) != 0 ) continue; /*******************************/ /* Component description found */ /*******************************/ while( Line[i] != ' ' ) i++; while( Line[i] == ' ' ) i++; /* i points the beginning of the schematic time stamp */ schematic_timestamp.Empty(); while( Line[i] != ' ' ) schematic_timestamp.Append( Line[i++] ); /* search val/ref.lib */ while( Line[i] == ' ' ) i++; /* i points the component value */ LibName = Line + i; component_reference.Empty(); footprint_name.Empty(); component_value.Empty(); memset( alim, 0, sizeof(alim) ); /* Read value */ ptchar = strstr( &Line[i], " " ); // Search end of value field (space) if( ptchar == 0 ) { wxString msg; msg.Printf( _( "Netlist error: %s" ), Line ); DisplayError( this, msg ); k = 0; } else k = ptchar - Line; for( ; i < k; i++ ) { if( Line[i] == SEPARATEUR ) break; footprint_name.Append( Line[i] ); } if( (Line[++i] == '(') && (Line[k - 1] == ')' ) ) { i++; l = 0; while( k - 1 > i ) alim[l++] = Line[i++]; } else i = k; /* Search component reference */ while( Line[i] != ' ' ) i++; /* goto end of value field */ while( Line[i] == ' ' ) i++; /* goto beginning of reference */ /* debut reference trouv‚ */ for( ; ; i++ ) { #if defined(KICAD_GOST) if( Line[i] == ' ' ) #else if( Line[i] <= ' ' ) #endif break; component_reference.Append( Line[i] ); } /* Search component value */ while( Line[i] == ' ' ) i++; /** goto beginning of value */ for( ; ; i++ ) { #if defined(KICAD_GOST) if( (Line[i] == ' ') || (Line[i] == '\n') || (Line[i] == '\r') ) #else if( Line[i] <= ' ' ) #endif break; component_value.Append( Line[i] ); } /* Store info for this component */ Cmp = new COMPONENT(); Cmp->m_Reference = component_reference; Cmp->m_Value = component_value; m_components.push_back( Cmp ); if( m_isEESchemaNetlist ) /* copy footprint name: */ { if( strnicmp( LibName, "$noname", 7 ) != 0 ) { while( *LibName > ' ' ) { Cmp->m_Module.Append( *LibName ); LibName++; } } } Cmp->m_TimeStamp = schematic_timestamp; ReadPinConnection( source, Cmp ); } fclose( source ); m_components.sort(); return 0; } int WinEDA_CvpcbFrame::ReadFootprintFilterList( FILE* f ) { char Line[BUFFER_CHAR_SIZE + 1]; wxString CmpRef; COMPONENT* Cmp = NULL; for( ; ; ) { if( fgets( Line, BUFFER_CHAR_SIZE, f ) == 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 */ BOOST_FOREACH( COMPONENT& component, m_components ) { Cmp = &component; 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 ReadPinConnection( FILE* f, COMPONENT* Cmp ) { int i, jj; wxString numpin; wxString net; char Line[BUFFER_CHAR_SIZE + 1]; PIN* Pin = NULL; for( ; ; ) { /* debut description trouv‚ */ for( ; ; ) { if( fgets( Line, BUFFER_CHAR_SIZE, f ) == 0 ) return -1; /* remove blanks from the beginning of the line */ i = 0; while( Line[i] == ' ' ) i++; while( Line[i] == '(' ) i++; while( Line[i] == ' ' ) i++; /* remove empty lines : */ if( Line[i] < ' ' ) continue; /* fin de description ? */ if( Line[i] == ')' ) return 0; net.Empty(); numpin.Empty(); /* Read pin name , 4 letters */ for( jj = 0; jj < 4; jj++, i++ ) { if( Line[i] == ' ' ) break; numpin.Append( Line[i] ); } /* Read netname */ while( Line[i] == ' ' ) i++; for( ; ; i++ ) { if( Line[i] <= ' ' ) break; net.Append( Line[i] ); } Pin = new PIN(); Pin->m_Number = numpin; Pin->m_Net = net; Cmp->m_Pins.push_back( Pin ); } } }