kicad/utils/kicad2step/pcb/3d_resolver.cpp

1167 lines
32 KiB
C++

/*
* This program source code file is part kicad2mcad
*
* Copyright (C) 2015-2016 Cirilo Bernardo <cirilo.bernardo@gmail.com>
*
* 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 <cstdlib>
#include <cstring>
#include <fstream>
#include <iostream>
#include <mutex>
#include <sstream>
#include <wx/fileconf.h>
#include <wx/filename.h>
#include <wx/log.h>
#include <wx/thread.h>
#include <wx/utils.h>
#include <wx/msgdlg.h>
#include "kicadpcb.h"
#include "3d_resolver.h"
// configuration file version
#define CFGFILE_VERSION 1
#define S3D_RESOLVER_CONFIG "3Dresolver.cfg"
// flag bits used to track different one-off messages to users
#define ERRFLG_ALIAS (1)
#define ERRFLG_RELPATH (2)
#define ERRFLG_ENVPATH (4)
#define MASK_3D_RESOLVER "3D_RESOLVER"
static std::mutex mutex3D_resolver;
static bool getHollerith( const std::string& aString, size_t& aIndex, wxString& aResult );
S3D_RESOLVER::S3D_RESOLVER()
{
m_errflags = 0;
}
bool S3D_RESOLVER::Set3DConfigDir( const wxString& aConfigDir )
{
if( aConfigDir.empty() )
return false;
wxFileName cfgdir( aConfigDir, "" );
cfgdir.Normalize();
if( false == cfgdir.DirExists() )
return false;
wxFileName kcom( cfgdir.GetPath(), "" );
kcom.RemoveLastDir();
kcom.SetFullName( "kicad_common" );
wxUniChar psep = wxFileName::GetPathSeparator();
if( kcom.FileExists() )
{
wxConfigBase* cfg = new wxFileConfig( "", "", kcom.GetFullPath() );
wxString subgroup( "EnvironmentVariables" );
wxString entry;
wxString val;
long idx = 0;
if( cfg->HasGroup( subgroup ) )
{
cfg->SetPath( subgroup );
while( cfg->GetNextEntry( entry, idx ) )
{
val = cfg->Read( entry, "" );
if( val.Last() == psep )
val = val.substr( 0, val.length() -1 );
// only add the EnvVar if it is not currently defined by the shell
wxString subst = "${";
subst.append( entry );
subst.append( "}" );
wxString exvar = wxExpandEnvVars( subst );
if( exvar == subst )
m_EnvVars.insert(std::pair< wxString, wxString >(entry, val));
entry.clear();
val.clear();
}
}
delete cfg;
}
m_ConfigDir = cfgdir.GetPath();
createPathList();
return true;
}
bool S3D_RESOLVER::SetProjectDir( const wxString& aProjDir, bool* flgChanged )
{
if( aProjDir.empty() )
return false;
wxFileName projdir( aProjDir, "" );
projdir.Normalize();
if( false == projdir.DirExists() )
return false;
m_curProjDir = projdir.GetPath();
wxSetEnv( "KIPRJMOD", m_curProjDir );
if( flgChanged )
*flgChanged = false;
if( m_Paths.empty() )
{
SEARCH_PATH al;
al.m_alias = "${KIPRJMOD}";
al.m_pathvar = "${KIPRJMOD}";
al.m_pathexp = m_curProjDir;
m_Paths.push_back( al );
m_NameMap.clear();
if( flgChanged )
*flgChanged = true;
}
else
{
if( m_Paths.front().m_pathexp.Cmp( m_curProjDir ) )
{
m_Paths.front().m_pathexp = m_curProjDir;
m_NameMap.clear();
if( flgChanged )
*flgChanged = true;
}
else
{
return true;
}
}
#ifdef DEBUG
do {
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
ostr << " * [INFO] changed project dir to ";
ostr << m_Paths.front().m_pathexp.ToUTF8();
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
} while( 0 );
#endif
return true;
}
wxString S3D_RESOLVER::GetProjectDir( void )
{
return m_curProjDir;
}
bool S3D_RESOLVER::createPathList( void )
{
if( !m_Paths.empty() )
return true;
wxString kmod;
// add an entry for the default search path; at this point
// we cannot set a sensible default so we use an empty string.
// the user may change this later with a call to SetProjectDir()
SEARCH_PATH lpath;
lpath.m_alias = "${KIPRJMOD}";
lpath.m_pathvar = "${KIPRJMOD}";
lpath.m_pathexp = m_curProjDir;
m_Paths.push_back( lpath );
wxFileName fndummy;
wxUniChar psep = fndummy.GetPathSeparator();
bool hasKISYS3DMOD = false;
// iterate over the list of internally defined ENV VARs
// and add existing paths to the resolver
std::map< wxString, wxString >::const_iterator mS = m_EnvVars.begin();
std::map< wxString, wxString >::const_iterator mE = m_EnvVars.end();
while( mS != mE )
{
// filter out URLs, template directories, and known system paths
if( mS->first == wxString( "KICAD_PTEMPLATES" )
|| mS->first == wxString( "KIGITHUB" )
|| mS->first == wxString( "KISYSMOD" ) )
{
++mS;
continue;
}
if( wxString::npos != mS->second.find( wxString( "://" ) ) )
{
++mS;
continue;
}
fndummy.Assign( mS->second, "" );
wxString pathVal;
// ensure system ENV VARs supersede internally defined vars
if( wxGetEnv( mS->first, &pathVal ) && wxDirExists( pathVal ) )
fndummy.Assign( pathVal, "" );
else
fndummy.Assign( mS->second, "" );
fndummy.Normalize();
if( !fndummy.DirExists() )
{
++mS;
continue;
}
wxString tmp( "${" );
tmp.Append( mS->first );
tmp.Append( "}" );
if( tmp == "${KISYS3DMOD}" )
hasKISYS3DMOD = true;
lpath.m_alias = tmp;
lpath.m_pathvar = tmp;
lpath.m_pathexp = fndummy.GetFullPath();
if( !lpath.m_pathexp.empty() && psep == *lpath.m_pathexp.rbegin() )
lpath.m_pathexp.erase( --lpath.m_pathexp.end() );
m_Paths.push_back( lpath );
++mS;
}
// special case: if KISYSMOD is not internally defined but is defined by
// the system, then create an entry here
wxString envar;
if( !hasKISYS3DMOD && wxGetEnv( "KISYS3DMOD", &envar ) )
{
lpath.m_alias = "${KISYS3DMOD}";
lpath.m_pathvar = "${KISYS3DMOD}";
fndummy.Assign( envar, "" );
fndummy.Normalize();
if( fndummy.DirExists() )
{
lpath.m_pathexp = fndummy.GetFullPath();
if( !lpath.m_pathexp.empty() && psep == *lpath.m_pathexp.rbegin() )
lpath.m_pathexp.erase( --lpath.m_pathexp.end() );
if( !lpath.m_pathexp.empty() )
m_Paths.push_back( lpath );
}
}
if( !m_ConfigDir.empty() )
readPathList();
if( m_Paths.empty() )
return false;
#ifdef DEBUG
wxLogTrace( MASK_3D_RESOLVER, " * [3D model] search paths:\n" );
std::list< SEARCH_PATH >::const_iterator sPL = m_Paths.begin();
std::list< SEARCH_PATH >::const_iterator ePL = m_Paths.end();
while( sPL != ePL )
{
wxLogTrace( MASK_3D_RESOLVER, " + '%s'\n", (*sPL).m_pathexp.ToUTF8() );
++sPL;
}
#endif
return true;
}
bool S3D_RESOLVER::UpdatePathList( std::vector< SEARCH_PATH >& aPathList )
{
wxUniChar envMarker( '$' );
while( !m_Paths.empty() && envMarker != *m_Paths.back().m_alias.rbegin() )
m_Paths.pop_back();
size_t nI = aPathList.size();
for( size_t i = 0; i < nI; ++i )
addPath( aPathList[i] );
return writePathList();
}
wxString S3D_RESOLVER::ResolvePath( const wxString& aFileName )
{
std::lock_guard<std::mutex> lock( mutex3D_resolver );
if( aFileName.empty() )
return wxEmptyString;
if( m_Paths.empty() )
createPathList();
// look up the filename in the internal filename map
std::map< wxString, wxString, S3D::rsort_wxString >::iterator mi;
mi = m_NameMap.find( aFileName );
if( mi != m_NameMap.end() )
return mi->second;
// first attempt to use the name as specified:
wxString tname = aFileName;
#ifdef _WIN32
// translate from KiCad's internal UNIX-like path to MSWin paths
tname.Replace( "/", "\\" );
#endif
// Note: variable expansion must preferably be performed via a
// threadsafe wrapper for the getenv() system call. If we allow the
// wxFileName::Normalize() routine to perform expansion then
// we will have a race condition since wxWidgets does not assure
// a threadsafe wrapper for getenv().
if( tname.StartsWith( "${" ) || tname.StartsWith( "$(" ) )
tname = expandVars( tname );
wxFileName tmpFN( tname );
// in the case of absolute filenames we don't store a map item
if( !aFileName.StartsWith( "${" ) && !aFileName.StartsWith( "$(" )
&& !aFileName.StartsWith( ":" ) && tmpFN.IsAbsolute() )
{
tmpFN.Normalize();
if( tmpFN.FileExists() )
return tmpFN.GetFullPath();
return wxEmptyString;
}
// this case covers full paths, leading expanded vars, and paths
// relative to the current working directory (which is not necessarily
// the current project directory)
if( tmpFN.FileExists() )
{
tmpFN.Normalize();
tname = tmpFN.GetFullPath();
m_NameMap.insert( std::pair< wxString, wxString > ( aFileName, tname ) );
// special case: if a path begins with ${ENV_VAR} but is not in the
// resolver's path list then add it
if( aFileName.StartsWith( "${" ) || aFileName.StartsWith( "$(" ) )
checkEnvVarPath( aFileName );
return tname;
}
// if a path begins with ${ENV_VAR}/$(ENV_VAR) and is not resolved then the
// file either does not exist or the ENV_VAR is not defined
if( aFileName.StartsWith( "${" ) || aFileName.StartsWith( "$(" ) )
{
if( !( m_errflags & ERRFLG_ENVPATH ) )
{
m_errflags |= ERRFLG_ENVPATH;
wxString errmsg = "[3D File Resolver] file not found:\n";
errmsg << tname << "\n";
ReportMessage( errmsg );
}
return wxEmptyString;
}
// at this point aFileName is:
// a. an aliased shortened name or
// b. cannot be determined
std::list< SEARCH_PATH >::const_iterator sPL = m_Paths.begin();
std::list< SEARCH_PATH >::const_iterator ePL = m_Paths.end();
// check the path relative to the current project directory;
// note: this is not necessarily the same as the current working
// directory, which has already been checked. This case accounts
// for partial paths which do not contain ${KIPRJMOD}.
// This check is performed before checking the path relative to
// ${KISYS3DMOD} so that users can potentially override a model
// within ${KISYS3DMOD}
if( !sPL->m_pathexp.empty() && !tname.StartsWith( ":" ) )
{
tmpFN.Assign( sPL->m_pathexp, "" );
wxString fullPath = tmpFN.GetPathWithSep() + tname;
if( fullPath.StartsWith( "${" ) || fullPath.StartsWith( "$(" ) )
fullPath = expandVars( fullPath );
if( wxFileName::FileExists( fullPath ) )
{
tmpFN.Assign( fullPath );
tmpFN.Normalize();
tname = tmpFN.GetFullPath();
m_NameMap.insert( std::pair< wxString, wxString > ( aFileName, tname ) );
return tname;
}
}
// check the partial path relative to ${KISYS3DMOD} (legacy behavior)
if( !tname.StartsWith( ":" ) )
{
wxFileName fpath;
wxString fullPath( "${KISYS3DMOD}" );
fullPath.Append( fpath.GetPathSeparator() );
fullPath.Append( tname );
fullPath = expandVars( fullPath );
fpath.Assign( fullPath );
if( fpath.Normalize() && fpath.FileExists() )
{
tname = fpath.GetFullPath();
m_NameMap.insert( std::pair< wxString, wxString > ( aFileName, tname ) );
return tname;
}
}
// ${ENV_VAR} paths have already been checked; skip them
while( sPL != ePL && ( sPL->m_alias.StartsWith( "${" ) || sPL->m_alias.StartsWith( "$(" ) ) )
++sPL;
// at this point the filename must contain an alias or else it is invalid
wxString alias; // the alias portion of the short filename
wxString relpath; // the path relative to the alias
if( !SplitAlias( tname, alias, relpath ) )
{
if( !( m_errflags & ERRFLG_RELPATH ) )
{
// this can happen if the file was intended to be relative to
// ${KISYS3DMOD} but ${KISYS3DMOD} not set or incorrect.
m_errflags |= ERRFLG_RELPATH;
wxString errmsg = "[3D File Resolver] No such path";
errmsg.append( "\n" );
errmsg.append( tname );
wxLogTrace( MASK_3D_RESOLVER, "%s\n", errmsg.ToUTF8() );
}
return wxEmptyString;
}
while( sPL != ePL )
{
if( !sPL->m_alias.Cmp( alias ) && !sPL->m_pathexp.empty() )
{
wxFileName fpath( wxFileName::DirName( sPL->m_pathexp ) );
wxString fullPath = fpath.GetPathWithSep() + relpath;
if( fullPath.StartsWith( "${") || fullPath.StartsWith( "$(" ) )
fullPath = expandVars( fullPath );
if( wxFileName::FileExists( fullPath ) )
{
wxFileName tmp( fullPath );
if( tmp.Normalize() )
tname = tmp.GetFullPath();
m_NameMap.insert( std::pair< wxString, wxString > ( aFileName, tname ) );
return tname;
}
}
++sPL;
}
if( !( m_errflags & ERRFLG_ALIAS ) )
{
m_errflags |= ERRFLG_ALIAS;
wxString errmsg = "[3D File Resolver] No such path; ensure the path alias is defined";
errmsg.append( "\n" );
errmsg.append( tname.substr( 1 ) );
wxLogTrace( MASK_3D_RESOLVER, "%s\n", errmsg.ToUTF8() );
}
return wxEmptyString;
}
bool S3D_RESOLVER::addPath( const SEARCH_PATH& aPath )
{
if( aPath.m_alias.empty() || aPath.m_pathvar.empty() )
return false;
std::lock_guard<std::mutex> lock( mutex3D_resolver );
SEARCH_PATH tpath = aPath;
#ifdef _WIN32
while( tpath.m_pathvar.EndsWith( "\\" ) )
tpath.m_pathvar.erase( tpath.m_pathvar.length() - 1 );
#else
while( tpath.m_pathvar.EndsWith( "/" ) && tpath.m_pathvar.length() > 1 )
tpath.m_pathvar.erase( tpath.m_pathvar.length() - 1 );
#endif
wxFileName path( tpath.m_pathvar, "" );
path.Normalize();
if( !path.DirExists() )
{
// suppress the message if the missing pathvar is the legacy KISYS3DMOD variable
if( aPath.m_pathvar != "${KISYS3DMOD}" && aPath.m_pathvar != "$(KISYS3DMOD)" )
{
wxString msg = _( "The given path does not exist" );
msg.append( "\n" );
msg.append( tpath.m_pathvar );
wxLogMessage( "%s\n", msg.ToUTF8() );
}
tpath.m_pathexp.clear();
}
else
{
tpath.m_pathexp = path.GetFullPath();
#ifdef _WIN32
while( tpath.m_pathexp.EndsWith( "\\" ) )
tpath.m_pathexp.erase( tpath.m_pathexp.length() - 1 );
#else
while( tpath.m_pathexp.EndsWith( "/" ) && tpath.m_pathexp.length() > 1 )
tpath.m_pathexp.erase( tpath.m_pathexp.length() - 1 );
#endif
}
wxString pname = path.GetPath();
std::list< SEARCH_PATH >::iterator sPL = m_Paths.begin();
std::list< SEARCH_PATH >::iterator ePL = m_Paths.end();
while( sPL != ePL )
{
if( !tpath.m_alias.Cmp( sPL->m_alias ) )
{
wxString msg = _( "Alias: " );
msg.append( tpath.m_alias );
msg.append( "\n" );
msg.append( _( "This path: " ) );
msg.append( tpath.m_pathvar );
msg.append( "\n" );
msg.append( _( "Existing path: " ) );
msg.append( sPL->m_pathvar );
wxMessageBox( msg, _( "Bad alias (duplicate name)" ) );
return false;
}
++sPL;
}
m_Paths.push_back( tpath );
return true;
}
bool S3D_RESOLVER::readPathList( void )
{
if( m_ConfigDir.empty() )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "3D configuration directory is unknown";
ostr << " * " << errmsg.ToUTF8();
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
wxFileName cfgpath( m_ConfigDir, S3D_RESOLVER_CONFIG );
cfgpath.Normalize();
wxString cfgname = cfgpath.GetFullPath();
size_t nitems = m_Paths.size();
std::ifstream cfgFile;
std::string cfgLine;
if( !wxFileName::Exists( cfgname ) )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "no 3D configuration file";
ostr << " * " << errmsg.ToUTF8() << " '";
ostr << cfgname.ToUTF8() << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
cfgFile.open( cfgname.ToUTF8() );
if( !cfgFile.is_open() )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "Could not open configuration file";
ostr << " * " << errmsg.ToUTF8() << " '" << cfgname.ToUTF8() << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
int lineno = 0;
SEARCH_PATH al;
size_t idx;
int vnum = 0; // version number
while( cfgFile.good() )
{
cfgLine.clear();
std::getline( cfgFile, cfgLine );
++lineno;
if( cfgLine.empty() )
{
if( cfgFile.eof() )
break;
continue;
}
if( 1 == lineno && cfgLine.compare( 0, 2, "#V" ) == 0 )
{
// extract the version number and parse accordingly
if( cfgLine.size() > 2 )
{
std::istringstream istr;
istr.str( cfgLine.substr( 2 ) );
istr >> vnum;
}
continue;
}
idx = 0;
if( !getHollerith( cfgLine, idx, al.m_alias ) )
continue;
// never add on KISYS3DMOD from a config file
if( !al.m_alias.Cmp( "KISYS3DMOD" ) )
continue;
if( !getHollerith( cfgLine, idx, al.m_pathvar ) )
continue;
if( !getHollerith( cfgLine, idx, al.m_description ) )
continue;
addPath( al );
}
cfgFile.close();
if( vnum < CFGFILE_VERSION )
writePathList();
if( m_Paths.size() != nitems )
return true;
return false;
}
bool S3D_RESOLVER::writePathList( void )
{
if( m_ConfigDir.empty() )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = _( "3D configuration directory is unknown" );
ostr << " * " << errmsg.ToUTF8();
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
wxMessageBox( errmsg, _( "Write 3D search path list" ) );
return false;
}
// skip all ${ENV_VAR} alias names
std::list< SEARCH_PATH >::const_iterator sPL = m_Paths.begin();
std::list< SEARCH_PATH >::const_iterator ePL = m_Paths.end();
while( sPL != ePL && ( sPL->m_alias.StartsWith( "${" )
|| sPL->m_alias.StartsWith( "$(" ) ) )
++sPL;
wxFileName cfgpath( m_ConfigDir, S3D_RESOLVER_CONFIG );
wxString cfgname = cfgpath.GetFullPath();
std::ofstream cfgFile;
if( sPL == ePL )
{
wxMessageDialog md( NULL,
_( "3D search path list is empty;\ncontinue to write empty file?" ),
_( "Write 3D search path list" ), wxYES_NO );
if( md.ShowModal() == wxID_YES )
{
cfgFile.open( cfgname.ToUTF8(), std::ios_base::trunc );
if( !cfgFile.is_open() )
{
wxMessageBox( _( "Could not open configuration file" ),
_( "Write 3D search path list" ) );
return false;
}
cfgFile << "#V" << CFGFILE_VERSION << "\n";
cfgFile.close();
return true;
}
return false;
}
cfgFile.open( cfgname.ToUTF8(), std::ios_base::trunc );
if( !cfgFile.is_open() )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = _( "Could not open configuration file" );
ostr << " * " << errmsg.ToUTF8() << " '" << cfgname.ToUTF8() << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
wxMessageBox( errmsg, _( "Write 3D search path list" ) );
return false;
}
cfgFile << "#V" << CFGFILE_VERSION << "\n";
std::string tstr;
while( sPL != ePL )
{
tstr = sPL->m_alias.ToUTF8();
cfgFile << "\"" << tstr.size() << ":" << tstr << "\",";
tstr = sPL->m_pathvar.ToUTF8();
cfgFile << "\"" << tstr.size() << ":" << tstr << "\",";
tstr = sPL->m_description.ToUTF8();
cfgFile << "\"" << tstr.size() << ":" << tstr << "\"\n";
++sPL;
}
bool bad = cfgFile.bad();
cfgFile.close();
if( bad )
{
wxMessageBox( _( "Problems writing configuration file" ),
_( "Write 3D search path list" ) );
return false;
}
return true;
}
void S3D_RESOLVER::checkEnvVarPath( const wxString& aPath )
{
bool useParen = false;
if( aPath.StartsWith( "$(" ) )
useParen = true;
else if( !aPath.StartsWith( "${" ) )
return;
size_t pEnd;
if( useParen )
pEnd = aPath.find( ")" );
else
pEnd = aPath.find( "}" );
if( pEnd == wxString::npos )
return;
wxString envar = aPath.substr( 0, pEnd + 1 );
// check if the alias exists; if not then add it to the end of the
// env var section of the path list
std::list< SEARCH_PATH >::iterator sPL = m_Paths.begin();
std::list< SEARCH_PATH >::iterator ePL = m_Paths.end();
while( sPL != ePL )
{
if( sPL->m_alias == envar )
return;
if( !sPL->m_alias.StartsWith( "${" ) )
break;
++sPL;
}
SEARCH_PATH lpath;
lpath.m_alias = envar;
lpath.m_pathvar = lpath.m_alias;
wxFileName tmpFN( lpath.m_alias, "" );
wxUniChar psep = tmpFN.GetPathSeparator();
tmpFN.Normalize();
if( !tmpFN.DirExists() )
return;
lpath.m_pathexp = tmpFN.GetFullPath();
if( !lpath.m_pathexp.empty() && psep == *lpath.m_pathexp.rbegin() )
lpath.m_pathexp.erase( --lpath.m_pathexp.end() );
if( lpath.m_pathexp.empty() )
return;
m_Paths.insert( sPL, lpath );
return;
}
wxString S3D_RESOLVER::expandVars( const wxString& aPath )
{
if( aPath.empty() )
return wxEmptyString;
wxString result;
for( const auto& i : m_EnvVars )
{
if( !aPath.compare( 2, i.first.length(), i.first ) )
{
result = i.second;
result.append( aPath.substr( 3 + i.first.length() ) );
if( result.StartsWith( "${" ) || result.StartsWith( "$(" ) )
result = expandVars( result );
return result;
}
}
result = wxExpandEnvVars( aPath );
if( result == aPath )
return wxEmptyString;
if( result.StartsWith( "${" ) || result.StartsWith( "$(" ) )
result = expandVars( result );
return result;
}
wxString S3D_RESOLVER::ShortenPath( const wxString& aFullPathName )
{
wxString fname = aFullPathName;
if( m_Paths.empty() )
createPathList();
std::lock_guard<std::mutex> lock( mutex3D_resolver );
std::list< SEARCH_PATH >::const_iterator sL = m_Paths.begin();
std::list< SEARCH_PATH >::const_iterator eL = m_Paths.end();
size_t idx;
while( sL != eL )
{
// undefined paths do not participate in the
// file name shortening procedure
if( sL->m_pathexp.empty() )
{
++sL;
continue;
}
wxFileName fpath( sL->m_pathexp, "" );
wxString fps = fpath.GetPathWithSep();
wxString tname;
idx = fname.find( fps );
if( std::string::npos != idx && 0 == idx )
{
fname = fname.substr( fps.size() );
#ifdef _WIN32
// ensure only the '/' separator is used in the internal name
fname.Replace( "\\", "/" );
#endif
if( sL->m_alias.StartsWith( "${" ) || sL->m_alias.StartsWith( "$(" ) )
{
// old style ENV_VAR
tname = sL->m_alias;
tname.Append( "/" );
tname.append( fname );
}
else
{
// new style alias
tname = ":";
tname.append( sL->m_alias );
tname.append( ":" );
tname.append( fname );
}
return tname;
}
++sL;
}
#ifdef _WIN32
// it is strange to convert an MSWin full path to use the
// UNIX separator but this is done for consistency and can
// be helpful even when transferring project files from
// MSWin to *NIX.
fname.Replace( "\\", "/" );
#endif
return fname;
}
const std::list< SEARCH_PATH >* S3D_RESOLVER::GetPaths( void )
{
return &m_Paths;
}
bool S3D_RESOLVER::SplitAlias( const wxString& aFileName,
wxString& anAlias, wxString& aRelPath )
{
anAlias.clear();
aRelPath.clear();
if( !aFileName.StartsWith( ":" ) )
return false;
size_t tagpos = aFileName.find( ":", 1 );
if( wxString::npos == tagpos || 1 == tagpos )
return false;
if( tagpos + 1 >= aFileName.length() )
return false;
anAlias = aFileName.substr( 1, tagpos - 1 );
aRelPath = aFileName.substr( tagpos + 1 );
return true;
}
static bool getHollerith( const std::string& aString, size_t& aIndex, wxString& aResult )
{
aResult.clear();
if( aIndex >= aString.size() )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "bad Hollerith string on line";
ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
size_t i2 = aString.find( '"', aIndex );
if( std::string::npos == i2 )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "missing opening quote mark in config file";
ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
++i2;
if( i2 >= aString.size() )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "invalid entry (unexpected end of line)";
ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
std::string tnum;
while( aString[i2] >= '0' && aString[i2] <= '9' )
tnum.append( 1, aString[i2++] );
if( tnum.empty() || aString[i2++] != ':' )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "bad Hollerith string on line";
ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
std::istringstream istr;
istr.str( tnum );
size_t nchars;
istr >> nchars;
if( (i2 + nchars) >= aString.size() )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "invalid entry (unexpected end of line)";
ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
if( nchars > 0 )
{
aResult = wxString::FromUTF8( aString.substr( i2, nchars ).c_str() );
i2 += nchars;
}
if( aString[i2] != '"' )
{
std::ostringstream ostr;
ostr << __FILE__ << ": " << __FUNCTION__ << ": " << __LINE__ << "\n";
wxString errmsg = "missing closing quote mark in config file";
ostr << " * " << errmsg.ToUTF8() << "\n'" << aString << "'";
wxLogTrace( MASK_3D_RESOLVER, "%s\n", ostr.str().c_str() );
return false;
}
aIndex = i2 + 1;
return true;
}
bool S3D_RESOLVER::ValidateFileName( const wxString& aFileName, bool& hasAlias )
{
// Rules:
// 1. The generic form of an aliased 3D relative path is:
// ALIAS:relative/path
// 2. ALIAS is a UTF string excluding "{}[]()%~<>\"='`;:.,&?/\\|$"
// 3. The relative path must be a valid relative path for the platform
hasAlias = false;
if( aFileName.empty() )
return false;
wxString filename = aFileName;
wxString lpath;
size_t pos0 = aFileName.find( ':' );
// ensure that the file separators suit the current platform
#ifdef __WINDOWS__
filename.Replace( "/", "\\" );
// if we see the :\ pattern then it must be a drive designator
if( pos0 != wxString::npos )
{
size_t pos1 = aFileName.find( ":\\" );
if( pos1 != wxString::npos && ( pos1 != pos0 || pos1 != 1 ) )
return false;
// if we have a drive designator then we have no alias
if( pos1 != wxString::npos )
pos0 = wxString::npos;
}
#else
filename.Replace( "\\", "/" );
#endif
// names may not end with ':'
if( pos0 == aFileName.length() -1 )
return false;
if( pos0 != wxString::npos )
{
// ensure the alias component is not empty
if( pos0 == 0 )
return false;
lpath = filename.substr( 0, pos0 );
// check the alias for restricted characters
if( wxString::npos != lpath.find_first_of( "{}[]()%~<>\"='`;:.,&?/\\|$" ) )
return false;
hasAlias = true;
lpath = aFileName.substr( pos0 + 1 );
}
else
{
lpath = aFileName;
// in the case of ${ENV_VAR}|$(ENV_VAR)/path, strip the
// environment string before testing
pos0 = wxString::npos;
if( aFileName.StartsWith( "${" ) )
pos0 = aFileName.find( '}' );
else if( aFileName.StartsWith( "$(" ) )
pos0 = aFileName.find( ')' );
if( pos0 != wxString::npos )
lpath = aFileName.substr( pos0 + 1 );
}
if( wxString::npos != lpath.find_first_of( wxFileName::GetForbiddenChars() ) )
return false;
return true;
}