/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2012 CERN * Copyright (C) 1992-2020 KiCad Developers, see change_log.txt for contributors. * * * 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 */ /** * @author Wayne Stambaugh * @file base_units.cpp * @brief Code to handle objects that require both schematic and board internal units. * @note This file is an ugly hack to solve the problem of formatting the base units * for either schematics or boards in objects that are include in both domains. * At some point in the future. This code should be rolled back into the * appropriate object and build with the correct internal unit formatting * depending on the application. */ #include #include #include // for KiROUND #include #include #if defined( PCBNEW ) || defined( CVPCB ) || defined( EESCHEMA ) || defined( GERBVIEW ) || defined( PL_EDITOR ) #define IU_TO_MM( x ) ( x / IU_PER_MM ) #define IU_TO_IN( x ) ( x / IU_PER_MILS / 1000 ) #define IU_TO_MILS( x ) ( x / IU_PER_MILS ) #define MM_TO_IU( x ) ( x * IU_PER_MM ) #define IN_TO_IU( x ) ( x * IU_PER_MILS * 1000 ) #define MILS_TO_IU( x ) ( x * IU_PER_MILS ) #else #error "Cannot resolve internal units due to no definition of EESCHEMA, CVPCB or PCBNEW." #endif // Helper function to print a float number without using scientific notation // and no trailing 0 // So we cannot always just use the %g or the %f format to print a fp number // this helper function uses the %f format when needed, or %g when %f is // not well working and then removes trailing 0 std::string Double2Str( double aValue ) { char buf[50]; int len; if( aValue != 0.0 && fabs( aValue ) <= 0.0001 ) { // For these small values, %f works fine, // and %g gives an exponent len = sprintf( buf, "%.16f", aValue ); while( --len > 0 && buf[len] == '0' ) buf[len] = '\0'; if( buf[len] == '.' ) buf[len] = '\0'; else ++len; } else { // For these values, %g works fine, and sometimes %f // gives a bad value (try aValue = 1.222222222222, with %.16f format!) len = sprintf( buf, "%.16g", aValue ); } return std::string( buf, len ); } double To_User_Unit( EDA_UNITS aUnit, double aValue ) { switch( aUnit ) { case EDA_UNITS::MILLIMETRES: return IU_TO_MM( aValue ); case EDA_UNITS::MILS: return IU_TO_MILS( aValue ); case EDA_UNITS::INCHES: return IU_TO_IN( aValue ); case EDA_UNITS::DEGREES: return aValue / 10.0f; default: return aValue; } } /* Convert a value to a string using double notation. * For readability, the mantissa has 0, 1, 3 or 4 digits, depending on units * for unit = inch the mantissa has 3 digits (Eeschema) or 4 digits * for unit = mil the mantissa has 0 digits (Eeschema) or 1 digits * for unit = mm the mantissa has 3 digits (Eeschema) or 4 digits * Should be used only to display info in status, * but not in dialogs, because 4 digits only * could truncate the actual value */ // A lower-precision (for readability) version of StringFromValue() wxString MessageTextFromValue( EDA_UNITS aUnits, int aValue, bool aAddUnitLabel, EDA_DATA_TYPE aType ) { return MessageTextFromValue( aUnits, double( aValue ), aAddUnitLabel, aType ); } // A lower-precision (for readability) version of StringFromValue() wxString MessageTextFromValue( EDA_UNITS aUnits, long long int aValue, bool aAddUnitLabel, EDA_DATA_TYPE aType ) { return MessageTextFromValue( aUnits, double( aValue ), aAddUnitLabel, aType ); } // A lower-precision (for readability) version of StringFromValue() wxString MessageTextFromValue( EDA_UNITS aUnits, double aValue, bool aAddUnitLabel, EDA_DATA_TYPE aType ) { wxString text; const wxChar* format; double value = aValue; switch( aType ) { case EDA_DATA_TYPE::VOLUME: value = To_User_Unit( aUnits, value ); // Fall through to continue computation KI_FALLTHROUGH; case EDA_DATA_TYPE::AREA: value = To_User_Unit( aUnits, value ); // Fall through to continue computation KI_FALLTHROUGH; case EDA_DATA_TYPE::DISTANCE: value = To_User_Unit( aUnits, value ); } switch( aUnits ) { default: case EDA_UNITS::MILLIMETRES: #if defined( EESCHEMA ) format = wxT( "%.2f" ); #else format = wxT( "%.4f" ); #endif break; case EDA_UNITS::MILS: #if defined( EESCHEMA ) format = wxT( "%.0f" ); #else format = wxT( "%.2f" ); #endif break; case EDA_UNITS::INCHES: #if defined( EESCHEMA ) format = wxT( "%.3f" ); #else format = wxT( "%.4f" ); #endif break; case EDA_UNITS::DEGREES: format = wxT( "%.1f" ); break; case EDA_UNITS::UNSCALED: format = wxT( "%.0f" ); break; } text.Printf( format, value ); if( aAddUnitLabel ) { text += " "; text += GetAbbreviatedUnitsLabel( aUnits, aType ); } return text; } /* Remove trailing 0 from a string containing a converted float number. * the trailing 0 are removed if the mantissa has more * than aTrailingZeroAllowed digits and some trailing 0 */ void StripTrailingZeros( wxString& aStringValue, unsigned aTrailingZeroAllowed ) { struct lconv * lc = localeconv(); char sep = lc->decimal_point[0]; unsigned sep_pos = aStringValue.Find( sep ); if( sep_pos > 0 ) { // We want to keep at least aTrailingZeroAllowed digits after the separator unsigned min_len = sep_pos + aTrailingZeroAllowed + 1; while( aStringValue.Len() > min_len ) { if( aStringValue.Last() == '0' ) aStringValue.RemoveLast(); else break; } } } /* Convert a value to a string using double notation. * For readability, the mantissa has 3 or more digits, * the trailing 0 are removed if the mantissa has more than 3 digits * and some trailing 0 * This function should be used to display values in dialogs because a value * entered in mm (for instance 2.0 mm) could need up to 8 digits mantissa * if displayed in inch to avoid truncation or rounding made just by the printf function. * otherwise the actual value is rounded when read from dialog and converted * in internal units, and therefore modified. */ wxString StringFromValue( EDA_UNITS aUnits, double aValue, bool aAddUnitSymbol, EDA_DATA_TYPE aType ) { double value_to_print = aValue; switch( aType ) { case EDA_DATA_TYPE::VOLUME: value_to_print = To_User_Unit( aUnits, value_to_print ); KI_FALLTHROUGH; case EDA_DATA_TYPE::AREA: value_to_print = To_User_Unit( aUnits, value_to_print ); KI_FALLTHROUGH; case EDA_DATA_TYPE::DISTANCE: value_to_print = To_User_Unit( aUnits, value_to_print ); } #if defined( EESCHEMA ) wxString stringValue = wxString::Format( wxT( "%.3f" ), value_to_print ); // Strip trailing zeros. However, keep at least 3 digits in mantissa // For readability StripTrailingZeros( stringValue, 3 ); #else char buf[50]; int len; if( value_to_print != 0.0 && fabs( value_to_print ) <= 0.0001 ) { len = sprintf( buf, "%.10f", value_to_print ); while( --len > 0 && buf[len] == '0' ) buf[len] = '\0'; if( buf[len]=='.' || buf[len]==',' ) buf[len] = '\0'; else ++len; } else { if( aUnits == EDA_UNITS::MILS ) len = sprintf( buf, "%.7g", value_to_print ); else len = sprintf( buf, "%.10g", value_to_print ); } wxString stringValue( buf, wxConvUTF8 ); #endif if( aAddUnitSymbol ) { switch( aUnits ) { case EDA_UNITS::MILLIMETRES: stringValue += wxT( " mm" ); break; case EDA_UNITS::DEGREES: stringValue += wxT( " deg" ); break; case EDA_UNITS::MILS: stringValue += wxT( " mils" ); break; case EDA_UNITS::INCHES: stringValue += wxT( " in" ); break; case EDA_UNITS::PERCENT: stringValue += wxT( "%" ); break; case EDA_UNITS::UNSCALED: break; } } return stringValue; } double From_User_Unit( EDA_UNITS aUnits, double aValue ) { switch( aUnits ) { case EDA_UNITS::MILLIMETRES: return MM_TO_IU( aValue ); case EDA_UNITS::MILS: return MILS_TO_IU( aValue ); case EDA_UNITS::INCHES: return IN_TO_IU( aValue ); case EDA_UNITS::DEGREES: // Convert to "decidegrees" return aValue * 10; default: case EDA_UNITS::UNSCALED: case EDA_UNITS::PERCENT: return aValue; } } double DoubleValueFromString( EDA_UNITS aUnits, const wxString& aTextValue, EDA_DATA_TYPE aType ) { double dtmp = 0; // Acquire the 'right' decimal point separator const struct lconv* lc = localeconv(); wxChar decimal_point = lc->decimal_point[0]; wxString buf( aTextValue.Strip( wxString::both ) ); // Convert the period in decimal point buf.Replace( wxT( "." ), wxString( decimal_point, 1 ) ); // Find the end of the numeric part unsigned brk_point = 0; while( brk_point < buf.Len() ) { wxChar ch = buf[brk_point]; if( !( (ch >= '0' && ch <='9') || (ch == decimal_point) || (ch == '-') || (ch == '+') ) ) { break; } ++brk_point; } // Extract the numeric part buf.Left( brk_point ); buf.ToDouble( &dtmp ); // Check the optional unit designator (2 ch significant) wxString unit( buf.Mid( brk_point ).Strip( wxString::leading ).Left( 2 ).Lower() ); if( aUnits == EDA_UNITS::MILLIMETRES || aUnits == EDA_UNITS::MILS || aUnits == EDA_UNITS::INCHES ) { if( unit == wxT( "mm" ) ) { aUnits = EDA_UNITS::MILLIMETRES; } else if( unit == wxT( "mi" ) || unit == wxT( "th" ) ) { aUnits = EDA_UNITS::MILS; } else if( unit == wxT( "in" ) || unit == wxT( "\"" ) ) { aUnits = EDA_UNITS::INCHES; } else if( unit == "oz" ) // 1 oz = 1.37 mils { aUnits = EDA_UNITS::MILS; dtmp *= 1.37; } } else if( aUnits == EDA_UNITS::DEGREES ) { if( unit == wxT( "ra" ) ) // Radians { dtmp *= 180.0f / M_PI; } } switch( aType ) { case EDA_DATA_TYPE::VOLUME: dtmp = From_User_Unit( aUnits, dtmp ); KI_FALLTHROUGH; case EDA_DATA_TYPE::AREA: dtmp = From_User_Unit( aUnits, dtmp ); KI_FALLTHROUGH; case EDA_DATA_TYPE::DISTANCE: dtmp = From_User_Unit( aUnits, dtmp ); } return dtmp; } void FetchUnitsFromString( const wxString& aTextValue, EDA_UNITS& aUnits ) { wxString buf( aTextValue.Strip( wxString::both ) ); unsigned brk_point = 0; while( brk_point < buf.Len() ) { wxChar c = buf[brk_point]; if( !( (c >= '0' && c <='9') || (c == '.') || (c == ',') || (c == '-') || (c == '+') ) ) break; ++brk_point; } // Check the unit designator (2 ch significant) wxString unit( buf.Mid( brk_point ).Strip( wxString::leading ).Left( 2 ).Lower() ); if( unit == wxT( "mm" ) ) aUnits = EDA_UNITS::MILLIMETRES; else if( unit == wxT( "mi" ) || unit == wxT( "th" ) ) // "mils" or "thou" aUnits = EDA_UNITS::MILS; else if( unit == wxT( "in" ) || unit == wxT( "\"" ) ) aUnits = EDA_UNITS::INCHES; else if( unit == wxT( "de" ) || unit == wxT( "ra" ) ) // "deg" or "rad" aUnits = EDA_UNITS::DEGREES; } long long int ValueFromString( EDA_UNITS aUnits, const wxString& aTextValue, EDA_DATA_TYPE aType ) { double value = DoubleValueFromString( aUnits, aTextValue, aType ); return KiROUND( value ); } /** * Function AngleToStringDegrees * is a helper to convert the \a double \a aAngle (in internal unit) * to a string in degrees */ wxString AngleToStringDegrees( double aAngle ) { wxString text; text.Printf( wxT( "%.3f" ), aAngle/10.0 ); StripTrailingZeros( text, 1 ); return text; } wxString GetAbbreviatedUnitsLabel( EDA_UNITS aUnit, EDA_DATA_TYPE aType ) { switch( aUnit ) { case EDA_UNITS::MILLIMETRES: switch( aType ) { default: wxASSERT( 0 ); KI_FALLTHROUGH; case EDA_DATA_TYPE::DISTANCE: return _( "mm" ); case EDA_DATA_TYPE::AREA: return _( "sq. mm" ); case EDA_DATA_TYPE::VOLUME: return _( "cu. mm" ); } case EDA_UNITS::MILS: switch( aType ) { default: wxASSERT( 0 ); KI_FALLTHROUGH; case EDA_DATA_TYPE::DISTANCE: return _( "mils" ); case EDA_DATA_TYPE::AREA: return _( "sq. mils" ); case EDA_DATA_TYPE::VOLUME: return _( "cu. mils" ); } case EDA_UNITS::INCHES: switch( aType ) { default: wxASSERT( 0 ); KI_FALLTHROUGH; case EDA_DATA_TYPE::DISTANCE: return _( "in" ); case EDA_DATA_TYPE::AREA: return _( "sq. in" ); case EDA_DATA_TYPE::VOLUME: return _( "cu. in" ); } case EDA_UNITS::PERCENT: return _( "%" ); case EDA_UNITS::UNSCALED: return wxEmptyString; case EDA_UNITS::DEGREES: return _( "deg" ); default: return wxT( "??" ); } } std::string FormatInternalUnits( int aValue ) { char buf[50]; double engUnits = aValue; int len; engUnits /= IU_PER_MM; if( engUnits != 0.0 && fabs( engUnits ) <= 0.0001 ) { len = snprintf( buf, sizeof(buf), "%.10f", engUnits ); while( --len > 0 && buf[len] == '0' ) buf[len] = '\0'; if( buf[len] == '.' ) buf[len] = '\0'; else ++len; } else { len = snprintf( buf, sizeof(buf), "%.10g", engUnits ); } return std::string( buf, len ); } std::string FormatAngle( double aAngle ) { char temp[50]; int len; len = snprintf( temp, sizeof(temp), "%.10g", aAngle / 10.0 ); return std::string( temp, len ); } std::string FormatInternalUnits( const wxPoint& aPoint ) { return FormatInternalUnits( aPoint.x ) + " " + FormatInternalUnits( aPoint.y ); } std::string FormatInternalUnits( const VECTOR2I& aPoint ) { return FormatInternalUnits( aPoint.x ) + " " + FormatInternalUnits( aPoint.y ); } std::string FormatInternalUnits( const wxSize& aSize ) { return FormatInternalUnits( aSize.GetWidth() ) + " " + FormatInternalUnits( aSize.GetHeight() ); }