/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2010 SoftPLC Corporation, Dick Hollenbeck * Copyright (C) 2012 Wayne Stambaugh * Copyright (C) 2010-2017 KiCad Developers, see change_log.txt for contributors. * * 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 #include #include // _() #include // TO_UTF8() #include #include static inline bool isDigit( char c ) { return c >= '0' && c <= '9'; } const char* EndsWithRev( const char* start, const char* tail, char separator ) { bool sawDigit = false; while( tail > start && isDigit( *--tail ) ) { sawDigit = true; } // if sawDigit, tail points to the 'v' here. if( sawDigit && tail-3 >= start ) { tail -= 3; if( tail[0]==separator && tail[1]=='r' && tail[2]=='e' && tail[3]=='v' ) { return tail+1; // omit separator, return "revN[N..]" } } return 0; } #if 0 // Not used int RevCmp( const char* s1, const char* s2 ) { int r = strncmp( s1, s2, 3 ); if( r || strlen(s1)<4 || strlen(s2)<4 ) { return r; } int rnum1 = atoi( s1+3 ); int rnum2 = atoi( s2+3 ); return -(rnum1 - rnum2); // swap the sign, higher revs first } #endif //----------------------------------------- static inline int okLogical( const UTF8& aField ) { // std::string::npos is largest positive number, casting to int makes it -1. // Returning that means success. return int( aField.find_first_of( ":" ) ); } static int okRevision( const UTF8& aField ) { char rev[32]; // C string for speed if( aField.size() >= 4 ) { strncpy( rev, "x/", sizeof( rev ) ); strncat( rev, aField.c_str(), sizeof(rev)-strlen(rev)-1 ); if( EndsWithRev( rev, rev + strlen(rev), '/' ) == rev+2 ) return -1; // success } return 0; // first character position "is in error", is best we can do. } //----------------------------------------- void LIB_ID::clear() { nickname.clear(); item_name.clear(); revision.clear(); } int LIB_ID::Parse( const UTF8& aId ) { clear(); const char* buffer = aId.c_str(); const char* rev = EndsWithRev( buffer, buffer+aId.length(), '/' ); size_t revNdx; size_t partNdx; int offset; //============================================== // in a LIB_ID like discret:R3/rev4 if( rev ) { revNdx = rev - buffer; // no need to check revision, EndsWithRev did that. revision = aId.substr( revNdx ); --revNdx; // back up to omit the '/' which precedes the rev } else { revNdx = aId.size(); } //=============================================== if( ( partNdx = aId.find( ':' ) ) != aId.npos ) { offset = SetLibNickname( aId.substr( 0, partNdx ) ); if( offset > -1 ) { return offset; } ++partNdx; // skip ':' } else { partNdx = 0; } //========================================= if( partNdx >= revNdx ) return partNdx; // Error: no library item name. // Be sure the item name is valid. // Some chars can be found in legacy files converted files from other EDA tools. std::string fpname = aId.substr( partNdx, revNdx-partNdx ); ReplaceIllegalFileNameChars( &fpname, '_' ); SetLibItemName( UTF8( fpname ) ); return -1; } LIB_ID::LIB_ID( const UTF8& aId ) { int offset = Parse( aId ); if( offset != -1 ) { THROW_PARSE_ERROR( _( "Illegal character found in LIB_ID string" ), wxString::FromUTF8( aId.c_str() ), aId.c_str(), 0, offset ); } } LIB_ID::LIB_ID( const wxString& aId ) { UTF8 id = aId; int offset = Parse( id ); if( offset != -1 ) { THROW_PARSE_ERROR( _( "Illegal character found in LIB_ID string" ), aId, id.c_str(), 0, offset ); } } LIB_ID::LIB_ID( const wxString& aLibName, const wxString& aLibItemName, const wxString& aRevision ) : nickname( aLibName ), item_name( aLibItemName ), revision( aRevision ) { } int LIB_ID::SetLibNickname( const UTF8& aLogical ) { int offset = okLogical( aLogical ); if( offset == -1 ) { nickname = aLogical; } return offset; } int LIB_ID::SetLibItemName( const UTF8& aLibItemName, bool aTestForRev ) { int separation = int( aLibItemName.find_first_of( "/" ) ); if( aTestForRev && separation != -1 ) { item_name = aLibItemName.substr( 0, separation-1 ); return separation; } else { item_name = aLibItemName; } return -1; } int LIB_ID::SetRevision( const UTF8& aRevision ) { int offset = okRevision( aRevision ); if( offset == -1 ) { revision = aRevision; } return offset; } UTF8 LIB_ID::Format() const { UTF8 ret; if( nickname.size() ) { ret += nickname; ret += ':'; } ret += item_name; if( revision.size() ) { ret += '/'; ret += revision; } return ret; } UTF8 LIB_ID::GetLibItemNameAndRev() const { UTF8 ret; if( revision.size() ) { ret += '/'; ret += revision; } return ret; } UTF8 LIB_ID::Format( const UTF8& aLogicalLib, const UTF8& aLibItemName, const UTF8& aRevision ) { UTF8 ret; int offset; if( aLogicalLib.size() ) { offset = okLogical( aLogicalLib ); if( offset != -1 ) { THROW_PARSE_ERROR( _( "Illegal character found in logical library name" ), wxString::FromUTF8( aLogicalLib.c_str() ), aLogicalLib.c_str(), 0, offset ); } ret += aLogicalLib; ret += ':'; } ret += aLibItemName; // TODO: Add validity test. if( aRevision.size() ) { offset = okRevision( aRevision ); if( offset != -1 ) { THROW_PARSE_ERROR( _( "Illegal character found in revision" ), wxString::FromUTF8( aRevision.c_str() ), aRevision.c_str(), 0, offset ); } ret += '/'; ret += aRevision; } return ret; } int LIB_ID::compare( const LIB_ID& aLibId ) const { // Don't bother comparing the same object. if( this == &aLibId ) return 0; int retv = nickname.compare( aLibId.nickname ); if( retv != 0 ) return retv; retv = item_name.compare( aLibId.item_name ); if( retv != 0 ) return retv; return revision.compare( aLibId.revision ); } bool LIB_ID::HasIllegalChars( const UTF8& aLibItemName, LIB_ID_TYPE aType ) { for( auto ch : aLibItemName ) { if( !isLegalChar( ch, aType ) ) return true; } return false; } UTF8 LIB_ID::FixIllegalChars( const UTF8& aLibItemName, LIB_ID_TYPE aType ) { UTF8 fixedName; for( UTF8::uni_iter chIt = aLibItemName.ubegin(); chIt < aLibItemName.uend(); ++chIt ) { auto ch = *chIt; fixedName += isLegalChar( ch, aType ) ? ch : '_'; } return fixedName; } unsigned LIB_ID::FindIllegalChar( const UTF8& aNickname, LIB_ID_TYPE aType ) { for( unsigned ch : aNickname ) { if( !isLegalChar( ch, aType ) ) return ch; } return 0; } ///> Set of characters not accepted in library and entry names #define BASE_ILLEGAL_CHARS '\t', '\n', '\r', ':', '/', '\\' const unsigned schIllegalChars[] = { BASE_ILLEGAL_CHARS, ' ' }; const unsigned pcbIllegalChars[] = { BASE_ILLEGAL_CHARS, 0 }; #define ILL_CHAR_SIZE (sizeof(schIllegalChars) / sizeof(int)) bool LIB_ID::isLegalChar( unsigned aUniChar, LIB_ID_TYPE aType ) { const unsigned (&illegalChars)[ILL_CHAR_SIZE] = aType == ID_SCH ? schIllegalChars : pcbIllegalChars; for( const unsigned ch : illegalChars ) { if( ch == aUniChar ) return false; } // Test for "printable" code (aUniChar is a unicode (32 bits) char, not a ASCII value ) if( aUniChar < ' ' ) return false; return true; } #if 0 && defined(DEBUG) // build this with Debug CMAKE_BUILD_TYPE void LIB_ID::Test() { static const char* lpids[] = { "smt:R_0805/rev0", "mysmt:R_0805/rev2", "device:AXIAL-0500", }; for( unsigned i=0; i