/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2016 CERN * Copyright (C) 2016-2023 KiCad Developers, see AUTHORS.txt for contributors. * @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, you may find one here: * https://www.gnu.org/licenses/gpl-3.0.html * or you may search the http://www.gnu.org website for the version 3 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include "spice_value.h" #include #include #include #include #include #include #include #include #include #include void SPICE_VALUE_FORMAT::FromString( const wxString& aString ) { long val; aString.Left( 1 ).ToLong( &val ); Precision = (int) val; Range = aString.Right( aString.Length() - 1 ); } wxString SPICE_VALUE_FORMAT::ToString() const { return wxString::Format( wxS( "%d%s" ), alg::clamp( 0, Precision, 9 ), Range ); } void SPICE_VALUE_FORMAT::UpdateUnits( const wxString& aUnits ) { if( Range.GetChar( 0 ) == '~' ) Range = Range.Left( 1 ) + aUnits; else if( SPICE_VALUE::ParseSIPrefix( Range.GetChar( 0 ) ) != SPICE_VALUE::PFX_NONE ) Range = Range.Left( 1 ) + aUnits; else Range = aUnits; } SPICE_VALUE::SPICE_VALUE( const wxString& aString ) : m_base( 0.0 ), m_prefix( PFX_NONE ), m_spiceStr( false ) { if( aString.IsEmpty() ) return; char units[8] = { 0, }; LOCALE_IO dummy; // Numeric values must be in "C" locale ('.' decimal separator) sscanf( (const char*) aString.c_str(), "%lf%7s", &m_base, units ); if( *units == 0 ) { Normalize(); return; } m_spiceStr = true; for( char* bufPtr = units; *bufPtr; ++bufPtr ) *bufPtr = tolower( *bufPtr ); if( strcmp( units, "meg" ) == 0 ) { m_prefix = PFX_MEGA; } else { switch( units[0] ) { case 'f': m_prefix = PFX_FEMTO; break; case 'p': m_prefix = PFX_PICO; break; case 'n': m_prefix = PFX_NANO; break; case 'u': m_prefix = PFX_MICRO; break; case 'm': m_prefix = PFX_MILI; break; case 'k': m_prefix = PFX_KILO; break; case 'g': m_prefix = PFX_GIGA; break; case 't': m_prefix = PFX_TERA; break; default: m_prefix = PFX_NONE; break; } } Normalize(); } void SPICE_VALUE::Normalize() { while( std::fabs( m_base ) >= 1000.0 ) { if( m_prefix == PFX_TERA ) // this is the biggest unit available break; m_base *= 0.001; m_prefix = (UNIT_PREFIX)( m_prefix + 3 ); } while( m_base != 0.0 && std::fabs( m_base ) < 1.000 ) { if( m_prefix == PFX_FEMTO ) // this is the smallest unit available break; m_base *= 1000.0; m_prefix = (UNIT_PREFIX)( m_prefix - 3 ); } } wxString spice_prefix( SPICE_VALUE::UNIT_PREFIX aPrefix ) { switch( aPrefix ) { case SPICE_VALUE::PFX_FEMTO: return wxT( "f" ); case SPICE_VALUE::PFX_PICO: return wxT( "p" ); case SPICE_VALUE::PFX_NANO: return wxT( "n" ); case SPICE_VALUE::PFX_MICRO: return wxT( "u" ); case SPICE_VALUE::PFX_MILI: return wxT( "m" ); case SPICE_VALUE::PFX_NONE: return wxEmptyString; case SPICE_VALUE::PFX_KILO: return wxT( "k" ); case SPICE_VALUE::PFX_MEGA: return wxT( "Meg" ); case SPICE_VALUE::PFX_GIGA: return wxT( "G" ); case SPICE_VALUE::PFX_TERA: return wxT( "T" ); } return wxEmptyString; } wxString si_prefix( SPICE_VALUE::UNIT_PREFIX aPrefix ) { switch( aPrefix ) { case SPICE_VALUE::PFX_FEMTO: return wxT( "f" ); case SPICE_VALUE::PFX_PICO: return wxT( "p" ); case SPICE_VALUE::PFX_NANO: return wxT( "n" ); case SPICE_VALUE::PFX_MICRO: return wxT( "u" ); case SPICE_VALUE::PFX_MILI: return wxT( "m" ); case SPICE_VALUE::PFX_NONE: return wxEmptyString; case SPICE_VALUE::PFX_KILO: return wxT( "K" ); case SPICE_VALUE::PFX_MEGA: return wxT( "M" ); case SPICE_VALUE::PFX_GIGA: return wxT( "G" ); case SPICE_VALUE::PFX_TERA: return wxT( "T" ); } return wxEmptyString; } SPICE_VALUE::UNIT_PREFIX SPICE_VALUE::ParseSIPrefix( wxChar c ) { switch( c ) { case 'f': return SPICE_VALUE::PFX_FEMTO; case 'p': return SPICE_VALUE::PFX_PICO; case 'n': return SPICE_VALUE::PFX_NANO; case 'u': return SPICE_VALUE::PFX_MICRO; case 'm': return SPICE_VALUE::PFX_MILI; case 'K': return SPICE_VALUE::PFX_KILO; case 'M': return SPICE_VALUE::PFX_MEGA; case 'G': return SPICE_VALUE::PFX_GIGA; case 'T': return SPICE_VALUE::PFX_TERA; default: return SPICE_VALUE::PFX_NONE; } } double SPICE_VALUE::ToNormalizedDouble( wxString* aPrefix ) { Normalize(); *aPrefix = spice_prefix( m_prefix ); return m_base; } double SPICE_VALUE::ToDouble() const { double res = m_base; if( m_prefix != PFX_NONE ) res *= std::pow( 10, (int) m_prefix ); return res; } wxString SPICE_VALUE::ToString() const { wxString res( wxString::Format( "%.3f", ToDouble() ) ); StripZeros( res ); return res; } wxString SPICE_VALUE::ToString( const SPICE_VALUE_FORMAT& aFormat ) { wxString range( aFormat.Range ); if( range.EndsWith( wxS( "°" ) ) ) { EDA_ANGLE angle( m_base * std::pow( 10, (int) m_prefix ), DEGREES_T ); angle.Normalize180(); return wxString::FromCDouble( angle.AsDegrees(), aFormat.Precision ) + wxS( "°" ); } if( range.StartsWith( wxS( "~" ) ) ) { Normalize(); range = si_prefix( m_prefix ) + range.Right( range.Length() - 1 ); } else { SPICE_VALUE::UNIT_PREFIX rangePrefix = ParseSIPrefix( range[0] ); m_base = m_base * std::pow( 10, m_prefix - rangePrefix ); m_prefix = rangePrefix; } double mantissa = m_base; int scale = 0; while( std::fabs( mantissa ) >= 10.0 ) { mantissa *= 0.1; scale += 1; } while( mantissa != 0.0 && std::fabs( mantissa ) < 1.0 ) { mantissa *= 10; scale -= 1; } mantissa = KiROUND( mantissa * std::pow( 10, aFormat.Precision - 1 ) ); mantissa *= std::pow( 10, scale - aFormat.Precision + 1 ); wxString res = wxString::FromCDouble( mantissa, std::max( 0, aFormat.Precision - scale - 1 ) ); // If we have an excessively long number, switch to scientific notation if( ssize_t( res.length() ) > aFormat.Precision + scale + 1 ) res = wxString::FromCDouble( mantissa ); return res + range; } wxString SPICE_VALUE::ToSpiceString() const { wxString res = wxString::FromCDouble( m_base ); StripZeros( res ); res += spice_prefix( m_prefix ); return res; } SPICE_VALUE SPICE_VALUE::operator+( const SPICE_VALUE& aOther ) const { int prefixDiff = m_prefix - aOther.m_prefix; SPICE_VALUE res; res.m_spiceStr = m_spiceStr || aOther.m_spiceStr; // Convert both numbers to a common prefix if( prefixDiff > 0 ) { // Switch to the aOther prefix res.m_base = ( m_base * std::pow( 10, prefixDiff ) ) + aOther.m_base; res.m_prefix = aOther.m_prefix; } else if( prefixDiff < 0 ) { // Use the current prefix res.m_base = m_base + ( aOther.m_base * std::pow( 10, -prefixDiff ) ); res.m_prefix = m_prefix; } else { res.m_base = m_base + aOther.m_base; res.m_prefix = m_prefix; // == aOther.m_prefix } res.Normalize(); return res; } SPICE_VALUE SPICE_VALUE::operator-( const SPICE_VALUE& aOther ) const { int prefixDiff = m_prefix - aOther.m_prefix; SPICE_VALUE res; res.m_spiceStr = m_spiceStr || aOther.m_spiceStr; // Convert both numbers to a common prefix if( prefixDiff > 0 ) { // Switch to the aOther prefix res.m_base = m_base * std::pow( 10, prefixDiff ) - aOther.m_base; res.m_prefix = aOther.m_prefix; } else if( prefixDiff < 0 ) { // Use the current prefix res.m_base = m_base - aOther.m_base * std::pow( 10, -prefixDiff ); res.m_prefix = m_prefix; } else { res.m_base = m_base - aOther.m_base; res.m_prefix = m_prefix; // == aOther.m_prefix } res.Normalize(); return res; } SPICE_VALUE SPICE_VALUE::operator*( const SPICE_VALUE& aOther ) const { SPICE_VALUE res( m_base * aOther.m_base, (UNIT_PREFIX)( m_prefix + aOther.m_prefix ) ); res.m_spiceStr = m_spiceStr || aOther.m_spiceStr; res.Normalize(); return res; } SPICE_VALUE SPICE_VALUE::operator/( const SPICE_VALUE& aOther ) const { SPICE_VALUE res( m_base / aOther.m_base, (UNIT_PREFIX)( m_prefix - aOther.m_prefix ) ); res.m_spiceStr = m_spiceStr || aOther.m_spiceStr; res.Normalize(); return res; } void SPICE_VALUE::StripZeros( wxString& aString ) { if ( aString.Find( ',' ) >= 0 || aString.Find( '.' ) >= 0 ) { while( aString.EndsWith( '0' ) ) aString.RemoveLast(); if( aString.EndsWith( '.' ) || aString.EndsWith( ',' ) ) aString.RemoveLast(); } } bool SPICE_VALIDATOR::Validate( wxWindow* aParent ) { wxTextEntry* const text = GetTextEntry(); if( !text ) return false; if( text->IsEmpty() ) { if( m_emptyAllowed ) return true; DisplayError( aParent, wxString::Format( _( "Please, fill required fields" ) ) ); return false; } wxString svalue = text->GetValue(); // In countries where the decimal separator is not a point, if the user // has not used a point, replace the decimal separator by the point, as needed // by spice simulator which uses the "C" decimal separator svalue.Replace(",", "." ); try { // If SPICE_VALUE can be constructed, then it is a valid Spice value SPICE_VALUE val( svalue ); } catch( ... ) { DisplayError( aParent, wxString::Format( _( "'%s' is not a valid Spice value." ), text->GetValue() ) ); return false; } if( svalue != text->GetValue() ) text->SetValue( svalue ); return true; }