User:Sam Derbyshire/Mathematica
Appearance
Here is some sample Mathematica code I've used to generate some mathematical images for Wikipedia.
Back to my user page, my talk page.
3D plots
[edit](*Gradient*) yellowred[op_: 1] := Blend[{{1, RGBColor[1, 0.15, 0, op]}, {0, RGBColor[1, 0.8, 0, op]}}, #] &; (*Antialiasing factor*) aa := 2; (* The function to plot! *) f[x_, y_] := Abs[Gamma[x + I y]]; (* Bounds for the plot *) {mx, Mx, my, My, mz, Mz} := {-5.5, 5, -5, 5, 0, 10}; (* Bounds for the gradient *) {gz, Gz} := {0, 10}; (* Bounds for ticks/gridlines *) {tx, Tx, ty, Ty, tz, Tz} := {-5, 5, -5, 5, 0, 10}; (* Number of big/small meshes *) {nx, ny, nz} := {10, 10, 10}; {Nx, Ny, Nz} := {21, 20, 20}; (* Small/big line thicknesses *) {w, W} := {0.001, 0.002}; (* Plot points and recursion *) pp := 50; recursion := 3; (* Font options *) fontsize := 6; fontstyle := "jsMath-cmr10"; fontcolor := RGBColor[0.3, 0.6, 0.8]; font := Directive[(FontFamily -> fontstyle), fontsize, fontcolor]; (* Labels for axes *) labels := {"x", "y", "z"}; (* Viewpoint for the 3D plot *) viewpoint := {-5, -5, 3}; signs := Map[-Sign[#] &, viewpoint]; (* Aspect ratio *) aspects := {1, 1, 0.8}; (* Lighting *) lighting := {{"Ambient", RGBColor[0.9, 0.9, 0.9]}, {"Point", RGBColor[0.15, 0.15, 0.15], {(mx + Mx)/2, (my + My)/2, 2 Mz + 1}}}; (* Gridlines *) xfcs := Join[Table[i, {i, mx, tx, (Mx - mx)/Nx}], Table[i, {i, tx, Tx, (Mx - mx)/Nx}], Table[i, {i, Tx, Mx, (Mx - mx)/Nx}]]; xtcks := Table[i, {i, tx, Tx, (Tx - tx)/nx}]; yfcs := Join[Table[i, {i, my, ty, (My - my)/Ny}], Table[i, {i, ty, Ty, (My - my)/Ny}], Table[i, {i, Ty, My, (My - my)/Ny}]]; ytcks := Table[i, {i, ty, Ty, (Ty - ty)/ny}]; zfcs := Join[Table[i, {i, mz, tz, (Mz - mz)/Nz}], Table[i, {i, tz, Tz, (Mz - mz)/Nz}], Table[i, {i, Tz, Mz, (Mz - mz)/Nz}]]; ztcks := Table[i, {i, tz, Tz, (Tz - tz)/nz}]; st1[l_] := Map[{#, Directive[Thickness[W], RGBColor[0.2, 0.2, 0.2, 0.3]]} &, l]; st2[l_] := Map[{#, Directive[Thickness[w], RGBColor[0.4, 0.4, 0.4, 0.2]]} &, l]; ticky[l_, ts_: 0.01, fs_: fontsize] := Map[{#, Style[#, (FontFamily -> fontstyle), fs], {ts, 0}} &, l]; xgrid := Join[st1[xtcks], st2[xfcs]]; ygrid := Join[st1[ytcks], st2[yfcs]]; zgrid := Join[st1[ztcks], st2[zfcs]]; (* The 3D surface plot *) surface[fn_, grad_] := Plot3D[fn[x, y], {x, mx, Mx}, {y, my, My}, PlotPoints -> pp, PlotRange -> {{mx, Mx}, {my, My}, {mz, Mz}}, MaxRecursion -> recursion, PlotRange -> {mz, Mz}, MeshFunctions -> {#1 &, #2 &, #3 &}, BoxRatios -> aspects, FaceGrids -> {{{signs[[1]], 0, 0}, {ygrid, zgrid}}, {{0, signs[[2]], 0}, {xgrid, zgrid}}, {{0, 0, signs[[3]]}, {xgrid, ygrid}}}, Mesh -> {xtcks, ytcks, ztcks}, (* Note: may need to remove some ticks manually to remove overlaps! *) (* Use this: Join[{{ytcks[[1]],"",{0.01,0}}},Drop[ticky[ytcks],1]] *) Ticks -> {Join[{{xtcks[[-1]], "", {0.01, 0}}}, Drop[ticky[xtcks], -1]], ticky[ytcks], ticky[ztcks]}, AxesLabel -> labels, LabelStyle -> Directive[(FontFamily -> fontstyle), fontsize + 2, fontcolor], Boxed -> False,(*BoxStyle->{Directive[Black,Opacity[0.9],Thickness[ W]]},*) PlotRangePadding -> None, ClippingStyle -> {{Black, Opacity[0.5]}}, MeshStyle -> {{Black, Opacity[0.3], Thickness[W]}, {Black, Opacity[0.3], Thickness[W]}, {White, Opacity[0.2], Thickness[W]}}, Lighting -> lighting, ColorFunction -> (grad[(#3 - gz)/(Gz - gz)] &) , ColorFunctionScaling -> False, ViewPoint -> viewpoint ] (* The 2D contours *) contours[fn_, grad_] := ContourPlot[fn[x, y], {x, mx, Mx}, {y, my, My}, Frame -> None, Axes -> None, PlotRange -> {{mx, Mx}, {my, My}, {mz, Mz}}, PlotRangePadding -> None, BoundaryStyle -> None, ClippingStyle -> None, ExclusionsStyle -> None, ContourShading -> None, PlotPoints -> pp, ContourStyle -> Table[{grad[(i - 1)/(Nz - 1)], Thickness[W]}, {i, 0, Nz}], Contours -> Table[i, {i, mz, Mz, (Mz - mz)/Nz}] ]; (* Hack to project down...*) proj[l_, fn_] := GraphicsComplex[l[[1]] /. {x_?AtomQ, y_?AtomQ} :> {x, y, fn[x, y]}, l[[2]]] contours3d[fn_, grad_] := Graphics3D[proj[Graphics[contours[fn, grad]][[1]], mz &]]; (* The plot itself. *) plot := Show[surface[f, yellowred[]], contours3d[f, yellowred[]] ]; Image[ImageResize[ Rasterize[plot, "Image", ImageResolution -> 150 aa, Background -> None], Scaled[1/aa]], Magnification -> 1]