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How can I write the code for a function (complex contour) similar to this in Mathematica: enter image description here

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Allow me to welcome you to StackOverflow and remind three things we usually do here: 1) As you receive help, try to give it too answering questions in your area of expertise 2) Read the FAQs 3) When you see good Q&A, vote them up by using the gray triangles, as the credibility of the system is based on the reputation that users gain by sharing their knowledge. Also remember to accept the answer that better solves your problem, if any, by pressing the checkmark sign –  belisarius Jul 21 '11 at 16:03
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Not clear to me what you mean by a "function". Are you wanting to parametrize a contour for, say, purposes of numeric or symbolic integration? Daniel Lichtblau –  Daniel Lichtblau Jul 21 '11 at 16:36
    
@Daniel: I should have read your comment before I simply created the graphics.... –  Simon Jul 22 '11 at 1:02
    
@belisarius: You are right. I will try not forget to credit answers. –  asd Jul 22 '11 at 8:41
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@asd Have a look at Piecewise[] in the Documentation Center. Daniel Lichtblau –  Daniel Lichtblau Jul 22 '11 at 16:59

2 Answers 2

up vote 4 down vote accepted

The most direct way is to use graphics primatives (although I think I prefer Felix's PolarPlot solution)

With[{q = Pi/6}, 
 Graphics[{Circle[{0, 0}, 1, {q, 2 Pi - q}], 
   Arrowheads[{{.05, .8}}], 
   Arrow[{{Cos[q] + 2, Sin[q]}, {Cos[q], Sin[q]}}], 
   Arrow[{{Cos[q], Sin[-q]}, {Cos[q] + 2, Sin[-q]}}],
   FontSize -> Medium, Text["\[ScriptCapitalC]", {2, Sin[q]}, {0, -2}]}, 
  Axes -> True, PlotRange -> {{-4, 6}, {-4, 4}}]]

contour

I guess if you want the actual function for contour, then maybe something like

contour[t_, t0_: (5 Pi/6)] := Piecewise[{
   {Exp[I (t + Pi)], -t0 < t < t0},
   {t - t0 + Exp[I (t0 + Pi)], t >= t0},
   {-t - t0 + Exp[-I (t0 + Pi)], t <= -t0}}]

ParametricPlot[Through[{Re, Im}[contour[t]]], {t, -8, 8}, PlotPoints -> 30]

contour v2

And to add arrows to this plot, I guess you'd have to add them in manually (using Epilog or the drawing tools) or use one of the packages that modifies the built-in plots.

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I am not exactly sure what c is, but I assumed it was a number between 0 and 1 meaning the height of the incoming straight line. So maybe somehting like this would suit your needs?

c = 0.7;
t0 = ArcSin[c];
PolarPlot[If[Abs[t] < t0, Abs[Sin[t0]/Sin[t]], 1], {t, -\[Pi], \[Pi]}]
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I'd guess c is just a label (it's the contour of integration c, as it's usually called in books etc). You could very easily add arrows to your contour using this package: users.dimi.uniud.it/~gianluca.gorni/Mma/Mma.html –  acl Jul 21 '11 at 22:28
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Arrow & labeling can also be added using something like the Epilog below ... Epilog -> { Arrow[{{2, c}, {1, c}}], Arrow[{{1, -c}, {2, -c}}], Arrow[{{-1, .1}, {-1, -.1}}], Text["C", {1.5, c + .1}], Text["C", {1.5, -(c + .1)}] } –  dwa Jul 21 '11 at 23:28

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