Ive been having some trouble using Plot to graph a complicated composite function.

I am trying to plot the `ArgMax`

of a composite function `F[]`

.

`F[]`

involves several levels of nested composite functions, many of which involve `Solve[]`

and `Min[]`

or `Max[]`

.

I don't have any problems with the way `F[]`

performs in my program (with the possible exception of how it renders in Plot), so I wont include the lengthy code that defines `F[]`

and its underlying simpler functions, for now.

When I try to use

`Plot[FindArgMax[F[],{vars}]`

, I get a very fast return on my output, which is mostly correct, except for the fact that I get a range with some buggy false values, which appear to be rendered as incorrect vertical segments over a portion of the plot.

I have evaluated `F[]`

over the range where the bugginess is happening, and have confirmed that the proper values are in line with the smooth curve shown in the second pic below.

`Plot[NArgMax[[F[],{vars}]`

, I get a correct plot which does not include the bugginess/false vertical segments, but it takes a considerably longer time.

I cant post a second link, but the `NArgMax`

plot generates the same picture as above, but smooth and without the holes and vertical segments.

Without getting into the specifics of `F[]`

, is there a quick and easy way to coax `FindArgMax`

into working properly here? Basically, is this a common issue with Plot that has a well known fix, or do I need to devote more time to recoding my definitions of `F[]`

and the underlying composite functions if I want to be able to use the fast FindArgMax command in my Plot?

Thanks in advance for any help, from a first timer here on the forum. :)

EDIT: Sample code from the troublesome portion of my program:

a = 3000; b = 1/10; cc = 1/10; d = 1;G1[x_, y_] := a Log[b x + cc y + d]

Gx1[x_, y_] := Derivative[1, 0][G1][x, y]; Gy1[x_, y_] := Derivative[0, 1][G1][x, y];

piPP1 = {y, x};

c1ycrit0[fy_, mu1_] := Max[0, Flatten[ Solve[Gy1[x, y] == fy mu1 && piPP1[1] == piPP1[[2]], y, x]][1][[2]]]

c1xcrit1[fx_, fy_, mu1_] := Max[Quiet[ Flatten[ Solve[Gx1[x, Flatten[Solve[piPP1[1] == piPP1[[2]], y]][1][[2]]] == mu1 fx, x]][1][[2]]], Quiet[Flatten[ Solve[Gx1[x, Max[0, Flatten[ Solve[Gy1[x, y] == fy*mu1 && piPP1[1] == piPP1[[2]], y, x]][1][[2]]]] == mu1 fx, x]]][1][[2]]]

c1xcrit2[fx_, fy_, mu1_, T1_] := Max[Quiet[ Flatten[Solve[T1 == x fx + fy c1ycrit0[fy, mu1] , x, y]][1][[2]]], Quiet[Flatten[ Solve[{piPP1[1] == piPP1[[2]], T1 == x fx + fy piPP1[[2]]}, x, y]][1][[2]]]]

Manipulate[ Quiet[Plot[(fx - xc) Max[0, Min[c1xcrit1[fx, fy, mu1], c1xcrit2[fx, fy, mu1, T1]]], {fx, 0, fxMax}, PlotRange -> {{0, fxMax}, {0, xPTmax}}]], {{mu1, 10, Subscript[Mu, 1]}, 0, 100}, {{xc, 3}, 0, 100}, {{fy, 10}, 0, 100}, {{T1, 100}, 0, 1000}, {{fxMax, 50}, 0, 100}, {{xPTmax, 100}, 0, 400}, ContinuousAction -> None]

BRX[fy_, xc_, mu1_, T1_] := Quiet[FindArgMax[(fx - xc) (Min[{c1xcrit1[fx, fy, mu1], c1xcrit2[fx, fy, mu1, T1]}]), {fx, xc}]]

BRX1[fy_, xc_, mu1_, T1_] := Quiet[NArgMax[(fx - xc) (Min[{c1xcrit1[fx, fy, mu1], c1xcrit2[fx, fy, mu1, T1]}]), fx]]

Manipulate[ xBR = Plot[BRX[fy, xc, mu1, T1], {fy, 0, hmax}, PlotRange -> {{0, hmax}, {0, hmax}}], {{mu1, 10, Subscript[Mu, 1]}, 0, 100}, {{xc, 3}, 0, 10}, {{T1, 100}, 0, 1000}, {{hmax, 40}, 0, 100}, ContinuousAction -> None]

Manipulate[ xBR1 = Plot[BRX1[fy, xc, mu1, T1], {fy, 0, hmax}, PlotRange -> {{0, hmax}, {0, hmax}}], {{mu1, 10, Subscript[Mu, 1]}, 0, 100}, {{xc, 3}, 0, 10}, {{T1, 100}, 0, 1000}, {{hmax, 40}, 0, 100}, ContinuousAction -> None]

Further edit: Changing the starting point "xc" for solving for "fx" in the BRX[] function drastically changes the result of the plot, which leads me to believe that it might be unlikely that I will be able to usefully use FindArgMax at all. I suppose that the derivatives are all a little too screwy due to all the MINs and MAXs in the underlying functions. Im still hopeful that there is a fix here that will enable to use FindArgMax, but Im a lot less optimistic after trying a few of the things suggested so far.

Thanks again to everyone for your help so far! :)

`F[]`

. Have you tried changing the`WorkingPrecision`

and/or`Method`

used in`FindArgMax`

? Also examine what's going on with the`StepMonitor`

option. It might be that`FindArgMax`

takes a particularly large step that takes it out of the range of sensible values that`F[]`

likes... – Simon Nov 6 '10 at 21:28