Drawing Planar Diagrams: Difference between revisions
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DrawPD was written by Emily Redelmeier at the University of Toronto in the summers of 2003 and 2004. |
DrawPD was written by Emily Redelmeier at the University of Toronto in the summers of 2003 and 2004. |
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{{HelpAndAbout3}} |
{{HelpAndAbout3}} |
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Thus, for example, here's the torus knot [[T(4,3)]]: |
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<!--$$Show[DrawPD[TorusKnot[4, 3]]]$$--> |
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One problem we currently have is that crossings come out at non-uniform sizes, hence in the picture below you may need magnifying glasses to decide who's over and who's under: |
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<!--$$MillettUnknot = PD[ |
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X[1,10,2,11], X[9,2,10,3], X[3,7,4,6], X[15,5,16,4], X[5,17,6,16], |
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X[7,14,8,15], X[8,18,9,17], X[11,18,12,19], X[19,12,20,13], X[13,20,14,1] |
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];$$--> |
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<!--$$Show[DrawPD[MillettUnknot]]$$--> |
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Revision as of 16:23, 24 August 2005
My summer student Emily Redelmeier is in the process of writing a program that uses circle packing to draw an arbitrary object given as a PD as in Planar Diagrams. At the moment her program is still slow, limited and sometimes buggy, but it is already quite useful, as the following lines show:
(For In[1] see Setup)
In[2]:= ?DrawPD
DrawPD[pd] takes the planar diagram description pd and creates a graphics object containing a picture of the knot. DrawPD[pd,options], where options is a list of rules, allows the user to control some of the parameters. OuterFace->n sets the face at infinity to the face numbered n. OuterFace->{e_1,e_2,...,e_n} sets the face at infinity to a face which has edges e_1, e_2, ..., e_n in the planar diagram description. Gap->g sets the size of the gap around a crossing to length g. |
In[3]:= DrawPD::about
DrawPD was written by Emily Redelmeier at the University of Toronto in the summers of 2003 and 2004. |
Thus, for example, here's the torus knot T(4,3):
One problem we currently have is that crossings come out at non-uniform sizes, hence in the picture below you may need magnifying glasses to decide who's over and who's under:
