CmdGnuCapGEN.cpp
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//**************************************************************************************************
// CmdGnuCapGEN.cpp *
// ------------------ *
// Started : 2008-03-11 *
// Last Update : 2014-12-23 *
// Copyright : (C) 2008-2016 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 "CmdGnuCapGEN.hpp"
//**************************************************************************************************
// Constructor.
CmdGnuCapGEN::CmdGnuCapGEN( void )
{
bSetDefaults( );
}
//**************************************************************************************************
// Destructor.
CmdGnuCapGEN::~CmdGnuCapGEN( )
{
}
//**************************************************************************************************
// Check that the object attributes are valid.
//
// Return Values :
// true - Success
// false - Failure
bool CmdGnuCapGEN::bValidate( void )
{
double df1, df2, df3, df4;
CmdBase::bValidate( );
// Overall source characteristics
if( ! CnvtType::bStrToFlt( m_osAmplitude, &df1 ) )
SetErrMsg( wxT("overall amplitude value is invalid") );
// if( df1 <= 0.0 ) ??? 05/10/2009
// SetErrMsg( wxT("overall amplitude value must be greater than zero") );
if( ! CnvtType::bStrToFlt( m_osOffset, &df1 ) )
SetErrMsg( wxT("overall offset value is invalid") );
// Sinusoidal source characteristics
if( ! CnvtType::bStrToFlt( m_osSinFreq, &df1 ) )
SetErrMsg( wxT("sinusoid frequency value is invalid") );
if( ! CnvtType::bStrToFlt( m_osSinPhase, &df1 ) )
SetErrMsg( wxT("sinusoid phase value is invalid") );
// Check the pulse time values
if( ! CnvtType::bStrToFlt( m_osPulRise, &df1 ) )
SetErrMsg( wxT("pulse rise time value is invalid") );
if( ! CnvtType::bStrToFlt( m_osPulWidth, &df2 ) )
SetErrMsg( wxT("pulse width value is invalid") );
if( ! CnvtType::bStrToFlt( m_osPulFall, &df3 ) )
SetErrMsg( wxT("pulse fall time value is invalid") );
if( ! CnvtType::bStrToFlt( m_osPulPeriod, &df4 ) )
SetErrMsg( wxT("pulse period value is invalid") );
if( df4 < df1 )
SetErrMsg( wxT("pulse rise time is greater than the pulse period") );
else if( df4 < df2 )
SetErrMsg( wxT("pulse width is greater than the pulse period") );
else if( df4 < df3 )
SetErrMsg( wxT("pulse fall time is greater than the pulse period") );
else if( df4 < df1+df2+df3 )
SetErrMsg( wxT("pulse period is less then the pulse width") );
// Check the pulse level values
if( ! CnvtType::bStrToFlt( m_osPulInitial, &df1 ) )
SetErrMsg( wxT("initial pulse value is invalid") );
if( ! CnvtType::bStrToFlt( m_osPulMin, &df2 ) )
SetErrMsg( wxT("minimum pulse value is invalid") );
if( ! CnvtType::bStrToFlt( m_osPulMax, &df3 ) )
SetErrMsg( wxT("maximum pulse value is invalid") );
if( df1 < df2 )
SetErrMsg( wxT("initial pulse value is less than the minimum pulse value") );
else if( df1 > df3 )
SetErrMsg( wxT("initial pulse value is greater than the maximum pulse value") );
else if( df2 > df3 )
SetErrMsg( wxT("minimum pulse value is less than the maximum pulse value") );
// Check overall pulse source logic
if( df4!=0.0 && (df2==0.0 && df3==0.0) )
SetErrMsg( wxT("pulse timing has been defined but no pulse levels") );
if( df4==0.0 && (df2!=0.0 || df3!=0.0) )
SetErrMsg( wxT("pulse levels have been defined but no pulse timing") );
return( true );
}
//**************************************************************************************************
// Set the object attributes to they're default values.
//
// Return Values :
// true - Success
// false - Failure
bool CmdGnuCapGEN::bSetDefaults( void )
{
CmdBase::bSetDefaults( );
m_eSimEng = eSIMR_GNUCAP;
m_eCmdType = eCMD_GEN;
m_osAmplitude = GCP_AMPLITUDE;
m_osOffset = GCP_OFFSET;
m_osSinFreq = GCP_SINFREQ;
m_osSinPhase = GCP_SINPHASE;
m_osPulInitial = GCP_PULINITIAL;
m_osPulMin = GCP_PULMIN;
m_osPulMax = GCP_PULMAX;
m_osPulDelay = GCP_PULDELAY;
m_osPulRise = GCP_PULRISE;
m_osPulWidth = GCP_PULWIDTH;
m_osPulFall = GCP_PULFALL;
m_osPulPeriod = GCP_PULPERIOD;
return( true );
}
//**************************************************************************************************
// Parse the command string.
//
// Eg.s : .GENERATOR AMP=2.00K OFFSET=1.00 FREQ=1.00K PHASE=50.00 INIT=5.00m
// MIN=2.00m MAX=10.00m DELAY=4.00m RISE=2.00m WIDTH=8.00m
// FALL=1.00m PERIOD=20.00m
//
// Return Values :
// true - Success
// false - Failure
bool CmdGnuCapGEN::bParse( void )
{
wxStringTokenizer ostk1;
wxString os1, os2;
size_t szt1;
int i1;
// Clear the object attributes
os1 = (wxString &) *this;
bSetDefaults( );
assign( os1 );
// Tokenize the command string
ostk1.SetString( *this );
i1 = ostk1.CountTokens( );
if( i1<2 || i1>13 ) return( bValidate( ) );
// Check command type
os1 = ostk1.GetNextToken( ).Left( 4 ).Upper( );
if( os1 != wxT(".GEN") ) return( bValidate( ) );
// Extract each parameter value
while( ostk1.HasMoreTokens( ) )
{
// Extract the field name and the associated value
os1 = ostk1.GetNextToken( );
os2 = wxT("");
if( ( szt1=os1.find( wxT("=") ) ) != wxString::npos )
{
os2 = os1.Right( os1.Length( )-szt1-1 );
os1 = os1.Left( szt1 );
}
// Set the object attribute values
if( os1 == wxT("AMP") ) m_osAmplitude = os2;
else if( os1 == wxT("OFFSET") ) m_osOffset = os2;
else if( os1 == wxT("FREQ") ) m_osSinFreq = os2;
else if( os1 == wxT("PHASE") ) m_osSinPhase = os2;
else if( os1 == wxT("INIT") ) m_osPulInitial = os2;
else if( os1 == wxT("MIN") ) m_osPulMin = os2;
else if( os1 == wxT("MAX") ) m_osPulMax = os2;
else if( os1 == wxT("DELAY") ) m_osPulDelay = os2;
else if( os1 == wxT("RISE") ) m_osPulRise = os2;
else if( os1 == wxT("WIDTH") ) m_osPulWidth = os2;
else if( os1 == wxT("FALL") ) m_osPulFall = os2;
else if( os1 == wxT("PERIOD") ) m_osPulPeriod = os2;
else return( bValidate( ) );
}
return( bValidate( ) );
}
//**************************************************************************************************
// Format the command string.
//
// Return Values :
// true - Success
// false - Failure
bool CmdGnuCapGEN::bFormat( void )
{
wxString os1;
float f1;
bool b1;
os1 = wxT(".GENERATOR");
if( ! m_osAmplitude .IsEmpty( ) ) os1 << wxT(" AMP=") << m_osAmplitude;
if( ! m_osOffset .IsEmpty( ) ) os1 << wxT(" OFFSET=") << m_osOffset;
f1 = 0.0;
b1 = CnvtType::bStrToFlt( m_osSinFreq, &f1 );
if( b1==true && f1!=0.0 )
{
os1 << wxT(" FREQ=") << m_osSinFreq;
os1 << wxT(" PHASE=") << m_osSinPhase;
}
f1 = 0.0;
b1 = CnvtType::bStrToFlt( m_osPulMax, &f1 );
if( b1==true && f1!=0.0 )
{
os1 << wxT(" INIT=") << m_osPulInitial;
os1 << wxT(" MIN=") << m_osPulMin;
os1 << wxT(" MAX=") << m_osPulMax;
os1 << wxT(" DELAY=") << m_osPulDelay;
os1 << wxT(" RISE=") << m_osPulRise;
os1 << wxT(" WIDTH=") << m_osPulWidth;
os1 << wxT(" FALL=") << m_osPulFall;
os1 << wxT(" PERIOD=") << m_osPulPeriod;
}
assign( os1 );
return( bValidate( ) );
}
//**************************************************************************************************
// Copy the contents of a CpntNgsIndSrc object.
//
// Argument List :
// roIndSrc - A reference to a CpntNgsIndSrc object
//
// Return Values :
// A reference to this object
CmdGnuCapGEN & CmdGnuCapGEN::operator = ( const CpntNgsIndSrc & roIndSrc )
{
double df1, df2;
if( ! roIndSrc.m_osSinAmp.IsEmpty( ) ) m_osAmplitude = roIndSrc.m_osSinAmp;
else m_osAmplitude = wxT("1.0");
m_osOffset = roIndSrc.m_osSinOffset;
m_osSinFreq = roIndSrc.m_osSinFreq;
if( CnvtType::bStrToFlt( roIndSrc.m_osSinFreq, &df1 ) &&
CnvtType::bStrToFlt( roIndSrc.m_osSinDelay, &df2 ) )
CnvtType::bFltToStr( 360.0 * df2 * df1, m_osSinPhase );
else
m_osSinPhase = wxT("0.0");
m_osPulInitial = roIndSrc.m_osPulInitial;
m_osPulMax = roIndSrc.m_osPulMax;
m_osPulDelay = roIndSrc.m_osPulDelay;
m_osPulRise = roIndSrc.m_osPulRise;
m_osPulWidth = roIndSrc.m_osPulWidth;
m_osPulFall = roIndSrc.m_osPulFall;
m_osPulPeriod = roIndSrc.m_osPulPeriod;
bFormat( );
return( *this );
}
//**************************************************************************************************
// Print the object attributes.
//
// Argument List :
// rosPrefix - A prefix to every line displayed (usually just spaces)
void CmdGnuCapGEN::Print( const wxString & rosPrefix )
{
CmdBase::Print( rosPrefix + wxT("CmdBase::") );
std::cout << rosPrefix.mb_str( ) << "m_osAmplitude : " << m_osAmplitude .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osOffset : " << m_osOffset .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osSinFreq : " << m_osSinFreq .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osSinPhase : " << m_osSinPhase .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osPulInitial : " << m_osPulInitial.mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osPulMin : " << m_osPulMin .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osPulMax : " << m_osPulMax .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osPulDelay : " << m_osPulDelay .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osPulRise : " << m_osPulRise .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osPulWidth : " << m_osPulWidth .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osPulFall : " << m_osPulFall .mb_str( ) << '\n';
std::cout << rosPrefix.mb_str( ) << "m_osPulPeriod : " << m_osPulPeriod .mb_str( ) << '\n';
}
//**************************************************************************************************
// Test Utility *
//**************************************************************************************************
#ifdef TEST_CMDGNUCAPGEN
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 CmdGnuCapGEN Test Utility"
<< "\n Version 1.04 (12/08/2011)\n";
// Create a GNU-CAP Transient command object
CmdGnuCapGEN tCmd_GEN;
// Use the following command example to check the formatter and the parser :
osCmd << wxT(".GENERATOR AMP=2.00K OFFSET=1.00 FREQ=1.00K PHASE=50.00 ")
<< wxT("INIT=5.00m MIN=2.00m MAX=10.00m DELAY=4.00m RISE=2.00m ")
<< wxT("WIDTH=8.00m FALL=1.00m PERIOD=20.00m");
// Set things up for a formatter test
tCmd_GEN.m_osAmplitude = wxT("2.00K");
tCmd_GEN.m_osOffset = wxT("1.00");
tCmd_GEN.m_osSinFreq = wxT("1.00K");
tCmd_GEN.m_osSinPhase = wxT("50.00");
tCmd_GEN.m_osPulInitial = wxT("5.00m");
tCmd_GEN.m_osPulMin = wxT("2.00m");
tCmd_GEN.m_osPulMax = wxT("10.00m");
tCmd_GEN.m_osPulDelay = wxT("4.00m");
tCmd_GEN.m_osPulRise = wxT("2.00m");
tCmd_GEN.m_osPulWidth = wxT("8.00m");
tCmd_GEN.m_osPulFall = wxT("1.00m");
tCmd_GEN.m_osPulPeriod = wxT("20.00m");
cout << "\nRun Formatter : " << ( tCmd_GEN.bFormat( ) ? "OK" : "FAULT" );
cout << "\nTest Cmd Format : " << ( tCmd_GEN == osCmd ? "OK" : "FAULT" );
cout << "\nExample Command : " << osCmd .mb_str( );
cout << "\ntCmd_GEN Contents : " << tCmd_GEN.mb_str( ) << '\n';
// Set things up for a parser test
tCmd_GEN.bSetString( osCmd );
cout << "\nRun Parser : " << ( tCmd_GEN.bParse( ) ? "OK" : "FAULT" );
tCmd_GEN.bFormat( );
cout << "\nTest Cmd Format : " << ( tCmd_GEN == osCmd ? "OK" : "FAULT" );
cout << "\nExample Command : " << osCmd .mb_str( );
cout << "\ntCmd_GEN Contents : " << tCmd_GEN.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_CMDGNUCAPGEN
//**************************************************************************************************