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@ -78,9 +78,9 @@ scaled to fit the 0 to 1 range. |
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\f[L \leftarrow \frac{V_{max} + V_{min}}{2}\f] |
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\f[L \leftarrow \frac{V_{max} + V_{min}}{2}\f] |
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\f[S \leftarrow \fork { \frac{V_{max} - V_{min}}{V_{max} + V_{min}} }{if \(L < 0.5\) } |
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\f[S \leftarrow \fork { \frac{V_{max} - V_{min}}{V_{max} + V_{min}} }{if \(L < 0.5\) } |
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{ \frac{V_{max} - V_{min}}{2 - (V_{max} + V_{min})} }{if \(L \ge 0.5\) }\f] |
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{ \frac{V_{max} - V_{min}}{2 - (V_{max} + V_{min})} }{if \(L \ge 0.5\) }\f] |
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\f[H \leftarrow \forkthree {{60(G - B)}/{S}}{if \(V_{max}=R\) } |
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\f[H \leftarrow \forkthree {{60(G - B)}/{(V_{max}-V_{min})}}{if \(V_{max}=R\) } |
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{{120+60(B - R)}/{S}}{if \(V_{max}=G\) } |
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{{120+60(B - R)}/{(V_{max}-V_{min})}}{if \(V_{max}=G\) } |
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{{240+60(R - G)}/{S}}{if \(V_{max}=B\) }\f] |
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{{240+60(R - G)}/{(V_{max}-V_{min})}}{if \(V_{max}=B\) }\f] |
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If \f$H<0\f$ then \f$H \leftarrow H+360\f$ . On output \f$0 \leq L \leq 1\f$, \f$0 \leq S \leq |
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If \f$H<0\f$ then \f$H \leftarrow H+360\f$ . On output \f$0 \leq L \leq 1\f$, \f$0 \leq S \leq |
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1\f$, \f$0 \leq H \leq 360\f$ . |
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1\f$, \f$0 \leq H \leq 360\f$ . |
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Maksim Shabunin
10 years ago