474 lines
13 KiB
C++
474 lines
13 KiB
C++
/*
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* This program source code file is part of KICAD, a free EDA CAD application.
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*
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* Copyright 2012 Torsten Hueter, torstenhtr <at> gmx.de
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* Copyright 2017-2019 Kicad Developers, see AUTHORS.txt for contributors.
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*
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#include <map>
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#include <nlohmann/json.hpp>
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#include <gal/color4d.h>
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#include <i18n_utility.h>
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using namespace KIGFX;
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#define TS( string ) wxString( _HKI( string ) ).ToStdString()
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// We can't have this as a plain static variable, because it is referenced during the initialization
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// of other static variables, so we must initialize it explicitly on first use.
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const StructColors* colorRefs()
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{
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static StructColors s_ColorRefs[NBCOLORS] =
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{
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{ 0, 0, 0, BLACK, TS( "Black" ), DARKDARKGRAY },
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{ 72, 72, 72, DARKDARKGRAY, TS( "Gray 1" ), DARKGRAY },
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{ 132, 132, 132, DARKGRAY, TS( "Gray 2" ), LIGHTGRAY },
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{ 194, 194, 194, LIGHTGRAY, TS( "Gray 3" ), WHITE },
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{ 255, 255, 255, WHITE, TS( "White" ), WHITE },
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{ 194, 255, 255, LIGHTYELLOW, TS( "L.Yellow" ), WHITE },
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{ 72, 0, 0, DARKBLUE, TS( "Blue 1" ), BLUE },
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{ 0, 72, 0, DARKGREEN, TS( "Green 1" ), GREEN },
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{ 72, 72, 0, DARKCYAN, TS( "Cyan 1" ), CYAN },
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{ 0, 0, 72, DARKRED, TS( "Red 1" ), RED },
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{ 72, 0, 72, DARKMAGENTA, TS( "Magenta 1" ), MAGENTA },
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{ 0, 72, 72, DARKBROWN, TS( "Brown 1" ), BROWN },
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{ 132, 0, 0, BLUE, TS( "Blue 2" ), LIGHTBLUE },
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{ 0, 132, 0, GREEN, TS( "Green 2" ), LIGHTGREEN },
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{ 132, 132, 0, CYAN, TS( "Cyan 2" ), LIGHTCYAN },
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{ 0, 0, 132, RED, TS( "Red 2" ), LIGHTRED },
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{ 132, 0, 132, MAGENTA, TS( "Magenta 2" ), LIGHTMAGENTA },
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{ 0, 132, 132, BROWN, TS( "Brown 2" ), YELLOW },
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{ 194, 0, 0, LIGHTBLUE, TS( "Blue 3" ), PUREBLUE, },
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{ 0, 194, 0, LIGHTGREEN, TS( "Green 3" ), PUREGREEN },
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{ 194, 194, 0, LIGHTCYAN, TS( "Cyan 3" ), PURECYAN },
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{ 0, 0, 194, LIGHTRED, TS( "Red 3" ), PURERED },
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{ 194, 0, 194, LIGHTMAGENTA, TS( "Magenta 3" ), PUREMAGENTA },
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{ 0, 194, 194, YELLOW, TS( "Yellow 3" ), PUREYELLOW },
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{ 255, 0, 0, PUREBLUE, TS( "Blue 4" ), WHITE },
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{ 0, 255, 0, PUREGREEN, TS( "Green 4" ), WHITE },
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{ 255, 255, 0, PURECYAN, TS( "Cyan 4" ), WHITE },
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{ 0, 0, 255, PURERED, TS( "Red 4" ), WHITE },
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{ 255, 0, 255, PUREMAGENTA, TS( "Magenta 4" ), WHITE },
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{ 0, 255, 255, PUREYELLOW, TS( "Yellow 4" ), WHITE },
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};
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return s_ColorRefs;
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}
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COLOR4D::COLOR4D( EDA_COLOR_T aColor )
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{
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if( aColor <= UNSPECIFIED_COLOR || aColor >= NBCOLORS )
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{
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*this = COLOR4D::UNSPECIFIED;
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return;
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}
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r = colorRefs()[aColor].m_Red / 255.0;
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g = colorRefs()[aColor].m_Green / 255.0;
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b = colorRefs()[aColor].m_Blue / 255.0;
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a = 1.0;
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}
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#ifdef WX_COMPATIBILITY
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COLOR4D::COLOR4D( const wxColour& aColor )
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{
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r = aColor.Red() / 255.0;
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g = aColor.Green() / 255.0;
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b = aColor.Blue() / 255.0;
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a = aColor.Alpha() / 255.0;
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}
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bool COLOR4D::SetFromWxString( const wxString& aColorString )
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{
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wxColour c;
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if( c.Set( aColorString ) )
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{
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r = c.Red() / 255.0;
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g = c.Green() / 255.0;
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b = c.Blue() / 255.0;
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a = c.Alpha() / 255.0;
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return true;
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}
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return false;
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}
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wxString COLOR4D::ToWxString( long flags ) const
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{
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wxColour c = ToColour();
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return c.GetAsString( flags );
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}
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wxColour COLOR4D::ToColour() const
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{
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using CHAN_T = wxColourBase::ChannelType;
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const wxColour colour(
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static_cast<CHAN_T>( r * 255 + 0.5 ),
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static_cast<CHAN_T>( g * 255 + 0.5 ),
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static_cast<CHAN_T>( b * 255 + 0.5 ),
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static_cast<CHAN_T>( a * 255 + 0.5 )
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);
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return colour;
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}
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COLOR4D COLOR4D::LegacyMix( COLOR4D aColor ) const
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{
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COLOR4D candidate;
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// Blend the two colors (i.e. OR the RGB values)
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candidate.r = ( (unsigned)( 255.0 * r ) | (unsigned)( 255.0 * aColor.r ) ) / 255.0,
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candidate.g = ( (unsigned)( 255.0 * g ) | (unsigned)( 255.0 * aColor.g ) ) / 255.0,
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candidate.b = ( (unsigned)( 255.0 * b ) | (unsigned)( 255.0 * aColor.b ) ) / 255.0,
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// the alpha channel can be reinitialized
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// but what is the best value?
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candidate.a = ( aColor.a + a ) / 2;
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return candidate;
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}
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unsigned int COLOR4D::ToU32() const
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{
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return ToColour().GetRGB();
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}
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void COLOR4D::FromU32( unsigned int aPackedColor )
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{
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wxColour c;
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c.SetRGB( aPackedColor );
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r = c.Red() / 255.0;
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g = c.Green() / 255.0;
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b = c.Blue() / 255.0;
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a = c.Alpha() / 255.0;
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}
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#endif
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namespace KIGFX {
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const bool operator==( const COLOR4D& lhs, const COLOR4D& rhs )
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{
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return lhs.a == rhs.a && lhs.r == rhs.r && lhs.g == rhs.g && lhs.b == rhs.b;
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}
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const bool operator!=( const COLOR4D& lhs, const COLOR4D& rhs )
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{
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return !( lhs == rhs );
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}
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const bool operator<( const COLOR4D& lhs, const COLOR4D& rhs )
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{
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if( lhs.r < rhs.r )
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return true;
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else if( lhs.g < rhs.g )
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return true;
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else if( lhs.b < rhs.b )
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return true;
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else if( lhs.a < rhs.a )
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return true;
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return false;
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}
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std::ostream &operator<<( std::ostream &aStream, COLOR4D const &aColor )
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{
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return aStream << aColor.ToWxString( wxC2S_CSS_SYNTAX );
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}
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void to_json( nlohmann::json& aJson, const COLOR4D& aColor )
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{
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aJson = nlohmann::json( aColor.ToWxString( wxC2S_CSS_SYNTAX ).ToStdString() );
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}
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void from_json( const nlohmann::json& aJson, COLOR4D& aColor )
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{
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aColor.SetFromWxString( aJson.get<std::string>() );
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}
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}
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void COLOR4D::ToHSL( double& aOutHue, double& aOutSaturation, double& aOutLightness ) const
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{
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auto min = std::min( r, std::min( g, b ) );
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auto max = std::max( r, std::max( g, b ) );
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auto diff = max - min;
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aOutLightness = ( max + min ) / 2.0;
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if( aOutLightness >= 1.0 )
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aOutSaturation = 0.0;
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else
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aOutSaturation = diff / ( 1.0 - std::abs( 2.0 * aOutLightness - 1.0 ) );
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double hue;
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if( diff <= 0.0 )
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hue = 0.0;
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else if( max == r )
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hue = ( g - b ) / diff;
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else if( max == g )
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hue = ( b - r ) / diff + 2.0;
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else
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hue = ( r - g ) / diff + 4.0;
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aOutHue = hue > 0.0 ? hue * 60.0 : hue * 60.0 + 360.0;
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while( aOutHue < 0.0 )
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aOutHue += 360.0;
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}
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void COLOR4D::FromHSL( double aInHue, double aInSaturation, double aInLightness )
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{
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const auto P = ( 1.0 - std::abs( 2.0 * aInLightness - 1.0 ) ) * aInSaturation;
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const auto scaled_hue = aInHue / 60.0;
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const auto Q = P * ( 1.0 - std::abs( std::fmod( scaled_hue, 2.0 ) - 1.0 ) );
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r = g = b = aInLightness - P / 2.0;
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if (scaled_hue < 1.0)
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{
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r += P;
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g += Q;
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}
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else if (scaled_hue < 2.0)
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{
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r += Q;
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g += P;
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}
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else if (scaled_hue < 3.0)
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{
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g += P;
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b += Q;
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}
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else if (scaled_hue < 4.0)
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{
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g += Q;
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b += P;
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}
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else if (scaled_hue < 5.0)
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{
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r += Q;
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b += P;
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}
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else
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{
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r += P;
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b += Q;
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}
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}
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void COLOR4D::ToHSV( double& aOutHue, double& aOutSaturation, double& aOutValue, bool aAlwaysDefineHue ) const
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{
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double min, max, delta;
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min = r < g ? r : g;
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min = min < b ? min : b;
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max = r > g ? r : g;
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max = max > b ? max : b;
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aOutValue = max; // value
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delta = max - min;
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if( max > 0.0 )
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{
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aOutSaturation = ( delta / max );
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}
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else // for black color (r = g = b = 0 ) saturation is set to 0.
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{
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aOutSaturation = 0.0;
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aOutHue = aAlwaysDefineHue ? 0.0 : NAN;
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return;
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}
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/* Hue in degrees (0...360) is coded according to this table
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* 0 or 360 : red
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* 60 : yellow
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* 120 : green
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* 180 : cyan
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* 240 : blue
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* 300 : magenta
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*/
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if( delta != 0.0 )
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{
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if( r >= max )
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aOutHue = ( g - b ) / delta; // between yellow & magenta
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else if( g >= max )
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aOutHue = 2.0 + ( b - r ) / delta; // between cyan & yellow
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else
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aOutHue = 4.0 + ( r - g ) / delta; // between magenta & cyan
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aOutHue *= 60.0; // degrees
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if( aOutHue < 0.0 )
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aOutHue += 360.0;
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}
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else // delta = 0 means r = g = b. hue is set to 0.0
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{
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aOutHue = aAlwaysDefineHue ? 0.0 : NAN;
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}
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}
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void COLOR4D::FromHSV( double aInH, double aInS, double aInV )
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{
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if( aInS <= 0.0 )
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{
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r = aInV;
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g = aInV;
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b = aInV;
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return;
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}
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double hh = aInH;
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while( hh >= 360.0 )
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hh -= 360.0;
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/* Hue in degrees (0...360) is coded according to this table
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* 0 or 360 : red
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* 60 : yellow
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* 120 : green
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* 180 : cyan
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* 240 : blue
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* 300 : magenta
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*/
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hh /= 60.0;
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int i = (int) hh;
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double ff = hh - i;
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double p = aInV * ( 1.0 - aInS );
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double q = aInV * ( 1.0 - ( aInS * ff ) );
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double t = aInV * ( 1.0 - ( aInS * ( 1.0 - ff ) ) );
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switch( i )
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{
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case 0:
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r = aInV;
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g = t;
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b = p;
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break;
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case 1:
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r = q;
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g = aInV;
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b = p;
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break;
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case 2:
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r = p;
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g = aInV;
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b = t;
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break;
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case 3:
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r = p;
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g = q;
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b = aInV;
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break;
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case 4:
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r = t;
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g = p;
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b = aInV;
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break;
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case 5:
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default:
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r = aInV;
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g = p;
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b = q;
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break;
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}
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}
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COLOR4D& COLOR4D::Saturate( double aFactor )
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{
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// One can saturate a color only when r, v, b are not equal
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if( r == g && r == b )
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return *this;
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double h, s, v;
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ToHSV( h, s, v, true );
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FromHSV( h, aFactor, 1.0 );
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return *this;
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}
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constexpr COLOR4D COLOR4D::UNSPECIFIED( 0, 0, 0, 0 );
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constexpr COLOR4D COLOR4D::WHITE( 1, 1, 1, 1 );
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constexpr COLOR4D COLOR4D::BLACK( 0, 0, 0, 1 );
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EDA_COLOR_T COLOR4D::FindNearestLegacyColor( int aR, int aG, int aB )
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{
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EDA_COLOR_T candidate = EDA_COLOR_T::BLACK;
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/* Find the 'nearest' color in the palette. This is fun. There is
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a gazilion of metrics for the color space and no one of the
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useful one is in the RGB color space. Who cares, this is a CAD,
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not a photosomething...
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I hereby declare that the distance is the sum of the square of the
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component difference. Think about the RGB color cube. Now get the
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euclidean distance, but without the square root... for ordering
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purposes it's the same, obviously. Also each component can't be
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less of the target one, since I found this currently work better...
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*/
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int nearest_distance = 255 * 255 * 3 + 1; // Can't beat this
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for( EDA_COLOR_T trying = EDA_COLOR_T::BLACK; trying < EDA_COLOR_T::NBCOLORS;
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trying = static_cast<EDA_COLOR_T>( int( trying ) + 1 ) )
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{
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const StructColors &c = colorRefs()[trying];
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int distance = (aR - c.m_Red) * (aR - c.m_Red) +
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(aG - c.m_Green) * (aG - c.m_Green) +
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(aB - c.m_Blue) * (aB - c.m_Blue);
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if( distance < nearest_distance && c.m_Red >= aR &&
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c.m_Green >= aG && c.m_Blue >= aB )
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{
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nearest_distance = distance;
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candidate = trying;
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}
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}
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return candidate;
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}
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