CmdNgSpicePR.cpp
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//**************************************************************************************************
// CmdNgSpicePR.cpp *
// ------------------ *
// Started : 2007-10-16 *
// Last Update : 2016-10-01 *
// Copyright : (C) 2007-2016 MSWaters *
//**************************************************************************************************
//**************************************************************************************************
// *
// 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. *
// *
//**************************************************************************************************
#include "CmdNgSpicePR.hpp"
//**************************************************************************************************
// Constructor.
CmdNgSpicePR::CmdNgSpicePR( void )
{
bSetDefaults( );
}
//**************************************************************************************************
// Destructor.
CmdNgSpicePR::~CmdNgSpicePR( )
{
}
//**************************************************************************************************
// Check that the object attributes are valid.
//
// Return Values :
// true - Success
// false - Failure
bool CmdNgSpicePR::bValidate( void )
{
CmdBase::bValidate( );
if( m_osaNodes.GetCount( )<=0 && m_osaCpnts.GetCount( )<=0 )
SetErrMsg( wxT("No components or nodes have been selected.") );
if( ! m_bParams[ ePARAM_VLT ] )
SetErrMsg( wxT("No parameters selected.") );
return( bIsValid( ) );
}
//**************************************************************************************************
// Set the object attributes to they're default values.
//
// Return Values :
// true - Success
// false - Failure
bool CmdNgSpicePR::bSetDefaults( void )
{
int i1;
CmdBase::bSetDefaults( );
m_eSimEng = eSIMR_NGSPICE;
m_eCmdType = eCMD_PR;
m_eAnaType = eCMD_NONE;
m_osaNodes.Empty( );
m_osaCpnts.Empty( );
for( i1=0; i1<(int)ePARAM_NONE; i1++ ) m_bParams[ i1 ] = false;
for( i1=0; i1<(int)eCPXPT_NONE; i1++ ) m_bCpxPts[ i1 ] = false;
return( true );
}
//**************************************************************************************************
// Set the analysis type.
//
// Argument List :
// eAnaType - An analysis command type
//
// Return Values :
// true - Success
// false - Failure
bool CmdNgSpicePR::bSetAnaType( eTypeCmd eAnaType )
{
// Does anything actually need to be done?
if( eAnaType == m_eAnaType ) return( true );
// Check that the desired analysis type is supported
switch( eAnaType )
{
case eCMD_OP :
case eCMD_DC :
case eCMD_AC :
case eCMD_TR : break;
default : return( false );
}
m_eAnaType = eAnaType;
return( true );
}
//**************************************************************************************************
// Parse the command string.
//
// Eg.s : .PRINT AC VM(6,0) 0-VM(5) VM(1,7) VM(2) VP(6,0) 0-VP(5) VP(1,7) VP(2)
// .PRINT AC VDB(4)
//
// Return Values :
// true - Success
// false - Failure
bool CmdNgSpicePR::bParse( void )
{
wxStringTokenizer ostk1;
Component oCpnt1;
wxString os1, os2;
int i1, i2;
size_t sz1;
// Clear the object attributes
os1 = *this;
bSetDefaults( );
assign( os1 );
// Tokenize the command string
ostk1.SetString( *this );
if( ostk1.CountTokens( ) < 3 ) return( bValidate( ) );
// Check command type
os1 = ostk1.GetNextToken( ).Left( 3 ).Upper( );
if( os1 != wxT(".PR") ) return( bValidate( ) );
// Extract the analysis type
os1 = ostk1.GetNextToken( );
if( os1 == wxT("DC") ) m_eAnaType = eCMD_DC;
else if( os1 == wxT("AC") ) m_eAnaType = eCMD_AC;
else if( os1 == wxT("TRAN") ) m_eAnaType = eCMD_TR;
else return( bValidate( ) );
// Standardize the argument list format; there are 3 possible formats eg. V(n), V(n,m) or 0-V(n),
// reformat the latter to : V(0,n).
os2.Empty( );
while( ostk1.HasMoreTokens( ) )
{
os1 = ostk1.GetNextToken( );
if( os1.Length( ) < 4 ) return( bValidate( ) );
if( os1.StartsWith( wxT("0-") ) )
{
i1 = os1.Index( wxT('(') );
i2 = os1.Index( wxT(')') );
if( i1!=-1 && i2!=-1 && i2>(i1+1) )
os1 = os1.Mid( 2, (size_t) i1-1 ) + wxT("0,") + os1.Mid( (size_t) i1+1 );
}
os2 << os1 << wxT(' ');
}
ostk1.SetString( os2 );
// Extract the parameters to derive, any complex parts and test component and/or test node labels
while( ostk1.HasMoreTokens( ) )
{
// Extract the next field
os1 = ostk1.GetNextToken( );
// Extract the parameter specifiers
switch( (char) os1.GetChar( 0 ) )
{
case wxT('V') : m_bParams[ ePARAM_VLT ] = true; break;
case wxT('I') : m_bParams[ ePARAM_CUR ] = true; break;
case wxT('P') : m_bParams[ ePARAM_PWR ] = true; break;
case wxT('R') : m_bParams[ ePARAM_RES ] = true; break;
default : return( bValidate( ) );
}
// Extract the complex parts if the analysis type is AC
if( m_eAnaType == eCMD_AC )
{
switch( (char) os1.GetChar( 1 ) )
{
case wxT('M') : m_bCpxPts[ eCPXPT_MAG ] = true; break;
case wxT('P') : m_bCpxPts[ eCPXPT_PHASE ] = true; break;
case wxT('R') : m_bCpxPts[ eCPXPT_REAL ] = true; break;
case wxT('I') : m_bCpxPts[ eCPXPT_IMAG ] = true; break;
case wxT('D') :
if( os1.Mid( 1, 2 ).Upper( ) == wxT("DB") )
{
m_bCpxPts[ eCPXPT_MAG ] = true;
m_bCpxPts[ eCPXPT_MAGDB ] = true;
break;
}
default : return( bValidate( ) );
}
}
// Extract the node and component label/s, there are 2 possible formats eg. V(n) or V(n,m,...),
// the first denotes a node and the second component.
i1 = os1.Index( wxT('(') );
i2 = os1.Index( wxT(')') );
if( i1!=-1 && i2!=-1 && i2>(i1+1) )
{
os1 = os1.Mid( (size_t) i1+1, (size_t) i2-i1-1 );
if( os1.Find( wxT(',') ) == wxNOT_FOUND )
{ // This is a node, add it to the list if it's not already there
if( m_osaNodes.Index( os1 ) == wxNOT_FOUND ) m_osaNodes.Add( os1 );
}
else
{ // This is a component, add it to the list if it's not already there
for( sz1=0; sz1<NetList::m_oaCpnts.GetCount( ); sz1++ )
{ // Match the node pair to a component label
oCpnt1 = NetList::m_oaCpnts.Item( sz1 );
if( oCpnt1.rosGetNodes( ) == os1 )
{
// Add the component name to the test component list
os2 = oCpnt1.rosGetName( );
if( m_osaCpnts.Index( os2 ) == wxNOT_FOUND ) m_osaCpnts.Add( os2 );
break;
}
}
}
}
else return( bValidate( ) );
}
return( bValidate( ) );
}
//**************************************************************************************************
// Format the command string.
//
// Eg.s : .PRINT AC VM(6,0) 0-VM(5) VM(1,7) VM(2) VP(6,0) 0-VP(5) VP(1,7) VP(2)
// .PRINT AC VDB(4)
//
// Return Values :
// true - Success
// false - Failure
bool CmdNgSpicePR::bFormat( void )
{
wxString osCmd, os1, os2;
wxStringTokenizer ostk1;
Component oCpnt1;
int i1;
size_t sz1, sz2;
// Set the command name
osCmd = wxT(".PRINT ");
// Add the analysis type
switch( m_eAnaType )
{
case eCMD_OP :
case eCMD_DC : osCmd << wxT("DC"); break;
case eCMD_AC : osCmd << wxT("AC"); break;
case eCMD_TR : osCmd << wxT("TRAN"); break;
default : break;
}
// Get the paramter list, replace component labels with node pairs and add it to the command
os1 = rosGetParamLst( );
sz1 = os1.find( wxT('('), 0 );
sz2 = os1.find( wxT(')'), sz1 );
while( sz1!=wxString::npos && sz2!=wxString::npos && sz2>sz1+1 )
{
os2 = os1.SubString( sz1+1, sz2-1 );
oCpnt1 = NetList::roGetCpnt( os2 );
if( m_osaCpnts.Index( os2 )!=wxNOT_FOUND && oCpnt1.bIsValid( ) )
{
os1.Remove( sz1+1, sz2-sz1-1 );
os1.insert( sz1+1, oCpnt1.rosGetNodes( ) );
}
sz1 = os1.find( wxT('('), sz2 );
sz2 = os1.find( wxT(')'), sz1 );
}
osCmd << wxT(' ') << os1;
// Modify the argument list slightly; reformat V(0,n) to 0-V(n) otherwise NG-Spice barfs
ostk1.SetString( osCmd );
osCmd.Empty( );
while( ostk1.HasMoreTokens( ) )
{
os1 = ostk1.GetNextToken( );
if( (i1=os1.Find( wxT("(0,") )) != wxNOT_FOUND )
{
os1.Remove( (size_t) i1+1, 2 );
os1.Prepend( wxT("0-") );
}
if( ! osCmd.IsEmpty( ) ) osCmd << wxT(' ');
osCmd << os1;
}
// Assign the command string value to the base class
assign( osCmd );
return( bValidate( ) );
}
//**************************************************************************************************
// Get the list of parameters to print.
//
// Return Values :
// The number of parameters to derive
const wxString & CmdNgSpicePR::rosGetParamLst( void )
{
static wxString osParamLst;
wxString osParam, osCpxPt;
int i1, i2, i3;
// Clear the static variable
osParamLst = wxT("");
// Sequence through the various parameter types
for( i1=0; i1<(int)ePARAM_NONE; i1++ )
{
if( ! m_bParams[ i1 ] ) continue;
switch( (eTypeParam) i1 )
{
case ePARAM_VLT : osParam = wxT('V'); break;
case ePARAM_CUR : osParam = wxT('I'); break;
case ePARAM_PWR : osParam = wxT('P'); break;
case ePARAM_RES : osParam = wxT('R'); break;
default : break;
}
// Sequence through the various complex parts
for( i2=0; i2<(int)eCPXPT_NONE-1; i2++ )
{
if( m_eAnaType == eCMD_AC )
{
if( ! m_bCpxPts[ i2 ] ) continue;
switch( (eTypeCpxPt) i2 )
{
case eCPXPT_MAG : osCpxPt = ( m_bCpxPts[ eCPXPT_MAGDB ] ? wxT("DB") : wxT("M") ); break;
case eCPXPT_PHASE : osCpxPt = wxT('P'); break;
case eCPXPT_REAL : osCpxPt = wxT('R'); break;
case eCPXPT_IMAG : osCpxPt = wxT('I'); break;
default : break;
}
}
else osCpxPt = wxT("");
// Sequence throught all the components and nodes
for( i3=0; i3<(int)m_osaCpnts.GetCount( ); i3++ )
osParamLst << osParam << osCpxPt << wxT('(') << m_osaCpnts.Item( i3 ) << wxT(") ");
for( i3=0; i3<(int)m_osaNodes.GetCount( ); i3++ )
osParamLst << osParam << osCpxPt << wxT('(') << m_osaNodes.Item( i3 ) << wxT(") ");
if( m_eAnaType != eCMD_AC ) break;
}
}
osParamLst.Trim( );
return( osParamLst );
}
//**************************************************************************************************
// Get the total number of parameters to print.
//
// Return Values :
// The number of parameters to derive
int CmdNgSpicePR::iGetParamCnt( void )
{
int iProbes, iParams, iCpxPts, i1;
iProbes = m_osaNodes.GetCount( ) + m_osaCpnts.GetCount( );
for( iParams=0, i1=0; i1<(int)ePARAM_NONE; i1++ )
if( m_bParams[ i1 ] )
iParams++;
if( m_eAnaType == eCMD_AC )
{
for( iCpxPts=0, i1=0; i1<(int)eCPXPT_NONE-1; i1++ )
if( m_bCpxPts[ i1 ] )
iCpxPts++;
}
else iCpxPts = 1;
return( iProbes * iParams * iCpxPts );
}
//**************************************************************************************************
// Copy the contents of another CmdNgSpicePR object.
//
// Argument List :
// roCmdPR - A reference to a CmdNgSpicePR object
//
// Return Values :
// A reference to this object
CmdNgSpicePR & CmdNgSpicePR::operator = ( const CmdNgSpicePR & roCmdPR )
{
int i1;
(CmdBase &) *this = (CmdBase &) roCmdPR;
bSetAnaType( roCmdPR.m_eAnaType );
m_osaNodes = roCmdPR.m_osaNodes;
m_osaCpnts = roCmdPR.m_osaCpnts;
for( i1=0; i1<(int)ePARAM_NONE; i1++ ) m_bParams[ i1 ] = roCmdPR.m_bParams[ i1 ];
for( i1=0; i1<(int)eCPXPT_NONE; i1++ ) m_bCpxPts[ i1 ] = roCmdPR.m_bCpxPts[ i1 ];
bFormat( );
return( *this );
}
//**************************************************************************************************
// Copy the contents of a CmdGnuCapPR object.
//
// Argument List :
// roCmdPR - A reference to a CmdGnuCapPR object
//
// Return Values :
// A reference to this object
CmdNgSpicePR & CmdNgSpicePR::operator = ( const CmdGnuCapPR & roCmdPR )
{
int i1;
(CmdBase &) *this = (CmdBase &) roCmdPR;
bSetAnaType( roCmdPR.eGetAnaType( ) );
m_osaNodes = roCmdPR.m_osaNodes;
m_osaCpnts = roCmdPR.m_osaCpnts;
for( i1=0; i1<(int)ePARAM_NONE; i1++ ) m_bParams[ i1 ] = roCmdPR.m_bParams[ i1 ];
for( i1=0; i1<(int)eCPXPT_NONE; i1++ ) m_bCpxPts[ i1 ] = roCmdPR.m_bCpxPts[ i1 ];
bFormat( );
return( *this );
}
//**************************************************************************************************
// Print the object attributes.
//
// Argument List :
// rosPrefix - A prefix to every line displayed (usually just spaces)
void CmdNgSpicePR::Print( const wxString & rosPrefix )
{
int i1;
size_t sz1;
CmdBase::Print( rosPrefix + wxT("CmdBase::") );
std::cout << rosPrefix.mb_str( ) << "m_eAnaType : ";
switch( m_eAnaType )
{
case eCMD_OP : std::cout << "eCMD_OP"; break; // Operating point analysis
case eCMD_DC : std::cout << "eCMD_DC"; break; // DC analysis
case eCMD_AC : std::cout << "eCMD_AC"; break; // AC analysis
case eCMD_TR : std::cout << "eCMD_TR"; break; // Transient analysis
case eCMD_FO : std::cout << "eCMD_FO"; break; // Fourier analysis
case eCMD_DI : std::cout << "eCMD_DI"; break; // Distortion analysis
case eCMD_NO : std::cout << "eCMD_NO"; break; // Noise analysis
case eCMD_PZ : std::cout << "eCMD_PZ"; break; // Pole-zero analysis
case eCMD_SE : std::cout << "eCMD_SE"; break; // Sensitivity analysis
case eCMD_TF : std::cout << "eCMD_TF"; break; // Transfer function analysis
case eCMD_NONE : std::cout << "eCMD_NONE"; break; // Analysis type not set
default : std::cout << "Invalid"; break;
}
std::cout << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osaCpnts[ n ] :";
for( sz1=0; sz1<m_osaCpnts.GetCount( ); sz1++ )
std::cout << ' ' << m_osaCpnts[ sz1 ].mb_str( );
std::cout << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osaNodes[ n ] :";
for( sz1=0; sz1<m_osaNodes.GetCount( ); sz1++ )
std::cout << ' ' << m_osaNodes[ sz1 ].mb_str( );
std::cout << '\n';
std::cout << rosPrefix.mb_str( ) << "m_bParams [ n ] :";
for( i1=0; i1<(int)ePARAM_NONE; i1++ )
std::cout << ( m_bParams[ i1 ] ? " true " : " false" );
std::cout << '\n';
std::cout << rosPrefix.mb_str( ) << "m_bCpxPts [ n ] :";
for( i1=0; i1<(int)eCPXPT_NONE; i1++ )
std::cout << ( m_bCpxPts[ i1 ] ? " true " : " false" );
std::cout << '\n';
}
//**************************************************************************************************
// Test Utility *
//**************************************************************************************************
#ifdef TEST_CMDNGSPICEPR
using namespace std;
// Function prototypes
void Usage( char * psAppName );
//**************************************************************************************************
int main( int argc, char * argv[ ] )
{
wxString osCmd;
wxString os1;
// Validate the argument count passed to the application
if( argc > 2 ) { Usage( argv[ 0 ] ); exit( EXIT_FAILURE ); }
// Process the command line arguments
os1 = wxConvLibc.cMB2WC( argv[ 1 ] );
if( argc > 1 )
{
if( os1 == wxT("-h") ) { Usage( argv[ 0 ] ); exit( EXIT_SUCCESS ); }
else { Usage( argv[ 0 ] ); exit( EXIT_FAILURE ); }
}
// Display the utility banner
cout << "\n Class CmdNgSpicePR Test Utility"
<< "\n Version 1.03 (2014-04-04)\n";
// Create a NG-SPICE PRINT command object
CmdNgSpicePR oCmd_PR;
// Use the following command example to check the formatter and the parser :
osCmd = wxT(".PRINT AC VM(6,0) 0-VM(5) VM(1,7) VM(2) VP(6,0) 0-VP(5) VP(1,7) VP(2)");
// Set things up for a formatter test
oCmd_PR.bSetAnaType( eCMD_AC );
oCmd_PR.m_osaCpnts.Add( wxT("6,0") );
oCmd_PR.m_osaCpnts.Add( wxT("0,5") );
oCmd_PR.m_osaCpnts.Add( wxT("1,7") );
oCmd_PR.m_osaNodes.Add( wxT("2") );
oCmd_PR.m_bParams[ ePARAM_VLT ] = true;
oCmd_PR.m_bCpxPts[ eCPXPT_MAG ] = true;
oCmd_PR.m_bCpxPts[ eCPXPT_PHASE ] = true;
cout << "\nRun Formatter : " << ( oCmd_PR.bFormat( ) ? "OK" : "FAULT" );
cout << "\nTest Cmd Format : " << ( oCmd_PR == osCmd ? "OK" : "FAULT" );
cout << "\nExample Command : " << osCmd .mb_str( );
cout << "\noCmdPR Contents : " << oCmd_PR.mb_str( ) << '\n';
// Set things up for a parser test
oCmd_PR.bSetString( osCmd );
cout << "\nRun Parser : " << ( oCmd_PR.bParse( ) ? "OK" : "FAULT" );
oCmd_PR.bFormat( );
cout << "\nTest Cmd Format : " << ( oCmd_PR == osCmd ? "OK" : "FAULT" );
cout << "\nExample Command : " << osCmd .mb_str( );
cout << "\noCmdPR Contents : " << oCmd_PR.mb_str( ) << '\n';
cout << '\n';
exit( EXIT_SUCCESS );
}
//**************************************************************************************************
void Usage( char * psAppName )
{
cout << "\nUsage : " << psAppName << " [-OPTIONS]"
<< "\nOptions :"
<< "\n -h : Print usage (this message)\n";
}
#endif // TEST_CMDNGSPICEPR
//**************************************************************************************************