# # Set up a color mapping for vectors in the complex plane similar to the one # used on Wikipedia for plotting complex trigonometric functions. # HSV colors # Hue is the vector angle atan( Real(f) / Imaginary(f) ) # Saturation is the vector magnitude (length) # V = 1 # save_encoding = GPVAL_ENCODING set encoding utf8 # We don't use the palette for plotting, but defining it allows us to # draw a colorbar showing the phase angle color scheme set palette model HSV defined ( 0 0 1 1, 1 1 1 1 ) set cbrange [-pi : pi] set cbtics ("0" -pi, "2π" pi) set cblabel "Phase Angle" rotate offset -2,0 Hue(x,y) = (pi + atan2(-y,-x)) / (2*pi) phase(x,y) = hsv2rgb( Hue(x,y), sqrt(x**2+y**2), 1. ) set xrange [-pi/2. : pi/2.] set yrange [-pi/2. : pi/2.] set xtics ("-π/2" -pi/2., "-π/4" -pi/4., "0" 0, "π/4" pi/4., "π/2" pi/2.) set ytics ("-π/2" -pi/2., "-π/4" -pi/4., "0" 0, "π/4" pi/4., "π/2" pi/2.) set view map; set size square; unset key set isosamples 100,100 set title "Color (Hue) indicates angle\nSaturation indicates amplitude" splot '++' using 1:2:(phase($1,$2)) with pm3d lc rgb variable |
rp(x,y) = real(f(x,y)) ip(x,y) = imag(f(x,y)) color(x,y) = hsv2rgb( Hue( rp(x,y), ip(x,y) ), abs(f(x,y)), 1. ) set title "asin( x + iy )" f(x,y) = asin(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
set title "acos( x + iy )" f(x,y) = acos(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
set title "atan( x + iy )" f(x,y) = atan(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
set title "sinh( x + iy )" f(x,y) = sinh(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
set title "cosh( x + iy )" f(x,y) = cosh(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
set title "tanh( x + iy )" f(x,y) = tanh(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
set title "asinh( x + iy )" f(x,y) = asinh(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
set title "acosh( x + iy )" f(x,y) = acosh(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
set title "atanh( x + iy )" f(x,y) = atanh(x + y*{0,1}) splot '++' using 1:2:(color($1,$2)) with pm3d lc rgb variable |
# # The final plot is atanh() again, but this time we represent # the magnitude as a z-coordinate. The angle in the complex # plane is colored as before. # set view 66, 336, 1.2, 1.2 set view equal xyz set colorbox user origin 0.85, 0.2 unset ztics set zlabel "magnitude" rotate offset 3 set xlabel "Real" rotate parallel offset 0,-2 set ylabel "Imaginary" rotate parallel offset 0,-2 set grid x y set xyplane at 0.0 set border -1 splot '++' using 1:2:(abs(f($1,$2))):(color($1,$2)) with pm3d lc rgb variable |
# set encoding save_encoding |