/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2017 Wayne Stambaugh * Copyright (C) 2017-2022 KiCad Developers, see AUTHORS.txt for contributors. * Copyright (C) 2017 CERN * @author Maciej Suminski * * 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 3 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, see . */ #include #include #include static bool normalizeAbsolutePaths( const wxFileName& aPathA, const wxFileName& aPathB, wxString* aResultPath ) { wxCHECK_MSG( aPathA.IsAbsolute(), false, aPathA.GetPath() + wxS( " is not an absolute path." ) ); wxCHECK_MSG( aPathB.IsAbsolute(), false, aPathB.GetPath() + wxS( " is not an absolute path." ) ); if( aPathA.GetPath() == aPathB.GetPath() ) return true; // Not sure all of volume checks are necessary since wxFileName::GetVolume() returns // an empty string if the path has no volume. if( ( aPathA.GetDirCount() > aPathB.GetDirCount() ) || ( aPathA.HasVolume() && !aPathB.HasVolume() ) || ( !aPathA.HasVolume() && aPathB.HasVolume() ) || ( ( aPathA.HasVolume() && aPathB.HasVolume() ) && ( aPathA.GetVolume().CmpNoCase( aPathB.GetVolume() ) != 0 ) ) ) return false; wxArrayString aDirs = aPathA.GetDirs(); wxArrayString bDirs = aPathB.GetDirs(); size_t i = 0; while( i < aDirs.GetCount() ) { if( aDirs[i] != bDirs[i] ) return false; i++; } if( aResultPath ) { while( i < bDirs.GetCount() ) { *aResultPath += bDirs[i] + wxT( "/" ); i++; } } return true; } wxString NormalizePath( const wxFileName& aFilePath, const ENV_VAR_MAP* aEnvVars, const wxString& aProjectPath ) { wxFileName envPath; wxString varName; wxString remainingPath; wxString normalizedFullPath; int pathDepth = 0; if( aEnvVars ) { for( const std::pair& entry : *aEnvVars ) { // Don't bother normalizing paths that don't exist or the user cannot read. if( !wxFileName::DirExists( entry.second.GetValue() ) || !wxFileName::IsDirReadable( entry.second.GetValue() ) ) { continue; } envPath.SetPath( entry.second.GetValue() ); wxString tmp; if( normalizeAbsolutePaths( envPath, aFilePath, &tmp ) ) { int newDepth = envPath.GetDirs().GetCount(); // Only use the variable if it removes more directories than the previous ones if( newDepth > pathDepth ) { pathDepth = newDepth; varName = entry.first; remainingPath = tmp; } // @fixme Shouldn't we break here if an environment variable path is found or try // at least try to pick the best match? } } } if( varName.IsEmpty() && !aProjectPath.IsEmpty() && wxFileName( aProjectPath ).IsAbsolute() && wxFileName( aFilePath ).IsAbsolute() ) { envPath.SetPath( aProjectPath ); if( normalizeAbsolutePaths( envPath, aFilePath, &remainingPath ) ) varName = PROJECT_VAR_NAME; } if( varName.IsEmpty() ) { normalizedFullPath = aFilePath.GetFullPath(); } else { normalizedFullPath = wxString::Format( "${%s}/", varName ); if( !remainingPath.IsEmpty() ) normalizedFullPath += remainingPath; normalizedFullPath += aFilePath.GetFullName(); } return normalizedFullPath; } wxString NormalizePath( const wxFileName& aFilePath, const ENV_VAR_MAP* aEnvVars, const PROJECT* aProject ) { if( aProject ) return NormalizePath( aFilePath, aEnvVars, aProject->GetProjectPath() ); else return NormalizePath( aFilePath, aEnvVars, "" ); } // Create file path by appending path and file name. This approach allows the filename // to contain a relative path, whereas wxFileName::SetPath() would replace the // relative path static wxString createFilePath( const wxString& aPath, const wxString& aFileName ) { wxString path( aPath ); if( !path.EndsWith( wxFileName::GetPathSeparator() ) ) path.Append( wxFileName::GetPathSeparator() ); return path + aFileName; } wxString ResolveFile( const wxString& aFileName, const ENV_VAR_MAP* aEnvVars, const PROJECT* aProject ) { wxFileName full( aFileName ); if( full.IsAbsolute() ) return full.GetFullPath(); if( aProject ) { wxFileName fn( createFilePath( aProject->GetProjectPath(), aFileName ) ); if( fn.Exists() ) return fn.GetFullPath(); } if( aEnvVars ) { for( const std::pair& entry : *aEnvVars ) { wxFileName fn( createFilePath( entry.second.GetValue(), aFileName ) ); if( fn.Exists() ) return fn.GetFullPath(); } } return wxEmptyString; } bool PathIsInsideProject( const wxString& aFileName, const PROJECT* aProject, wxFileName* aSubPath ) { wxFileName fn( aFileName ); wxFileName prj( aProject->GetProjectPath() ); wxArrayString pdirs = prj.GetDirs(); wxArrayString fdirs = fn.GetDirs(); if( fdirs.size() < pdirs.size() ) return false; for( size_t i = 0; i < pdirs.size(); i++ ) { if( fdirs[i] != pdirs[i] ) return false; } // Now we know that fn is inside prj if( aSubPath ) { aSubPath->Clear(); for( size_t i = pdirs.size(); i < fdirs.size(); i++ ) aSubPath->AppendDir( fdirs[i] ); } return true; }