# set terminal svg size 600,400 dynamic enhanced font 'arial,10' mousing name "map_projection_3" butt dashlength 1.0 # set output 'map_projection.3.svg' unset border set angles degrees set key at screen 0.98, 0.95 right top vertical Right noreverse enhanced autotitle nobox set key noinvert samplen 0.3 spacing 1 width 0 height 0 set size ratio 0.5 1,1 set style data lines unset xtics unset ytics set title "{/:Bold Albers} equal-area conic projection" set xrange [ * : * ] noreverse writeback set x2range [ * : * ] noreverse writeback set yrange [ * : * ] noreverse writeback set y2range [ * : * ] noreverse writeback set zrange [ * : * ] noreverse writeback set cbrange [ * : * ] noreverse writeback set rrange [ * : * ] noreverse writeback set lmargin 1 set rmargin 1 α(λ,φ) = acos(cos(φ) * cos(λ/2.)) x_W3(λ, φ) = 0.5 * (λ*cos(φ1) + (2*cos(φ)*sin(λ/2.))/sinc(α(λ,φ))) y_W3(λ, φ) = 0.5 * (φ + sin(φ)/sinc(α(λ,φ))) x_Hammer(λ, φ) = (2*sqrt(2)*cos(φ)*sin(λ/2)) / sqrt(1.0 + cos(φ)*cos(λ/2)) y_Hammer(λ, φ) = sqrt(2)*sin(φ) / sqrt(1.0 + cos(φ)*cos(λ/2)) Z(x,y) = sqrt( 1.0 - (x/4)**2 - (y/2)**2 ) lon(x,y) = atan( x/(ρ0-y) ) / n lat(x,y) = asin( (C - n*n*(x**2 + (ρ0-y)**2)) / (2*n) ) θ(λ) = n*(λ-λ0) ρ(φ) = sqrt(C - 2*n*sin(φ)) / n x_Albers(λ, φ) = ρ(φ) * sin(θ(λ)) y_Albers(λ, φ) = ρ0 - ρ(φ)*cos(θ(λ)) clip(south) = south < -60. ? NaN : south mouse_readout(x,y) = sprintf("Longitude %.2f Latitude %.2f", lon(x,y), lat(x,y)) NO_ANIMATION = 1 π = 3.14159265358979 φ1 = 0.0 φ0 = 0.0 φ2 = 60.0 λ0 = 0.0 n = 0.433012701892219 C = 1.0 ρ0 = 2.3094010767585 ## Last datafile plotted: "world.dat" plot for [λ=-180:180:10] [φ=-60:90] '+' using (x_Albers(λ,φ)):(y_Albers(λ,φ)) with lines lc "cyan" lw .5 notitle, for [φ = -60:90:10] [λ=-180:180:10] '+' using (x_Albers(λ,φ)):(y_Albers(λ,φ)) with lines lc "cyan" lw .5 notitle, 'world.dat' using (x_Albers($1,clip($2))):(y_Albers($1,clip($2))) with filledcurve fc "brown" title "fill", 'world.dat' using (x_Albers($1,clip($2))):(y_Albers($1,clip($2))) with lines lc "black" title "outline"