# map representation for robot path finding algorithms

I'm trying to figure out how to represent a real (quite complex) 2D map in a program for path planning. In robotic classes, we have always used simple 2D arrays like

``````'a_simple_map=[[ 0.  0.  0.  0.  0.]
[ 0. -1.  0.  0.  0.]
[ 0. -1.  0.  0.  0.]
[ 0. -1.  0. -1.  0.]
[ 0.  0.  0. -1.  0.]]'
``````

Where -1 s represent objects or wall etc. But how do we represent a real classroom with tables, desks, chairs etc. all of which have different geometry? I hope it is not done by hand. (preferably, plese give pyton for examples is possible)

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that's when you start defining actual 3d objects and much finer coordinates than "open" and "closed". –  Marc B Apr 10 at 16:50
thanks Marc, but can you be more specific? It is not 3d- but 2d world, let this one be the map: loxam-module.com/pdf/bureau-equipe.pdf.Even imagine if all the shapes are rectengular, but it is impossible to put 1 and 0 s to a huge matrix Can you give a sample code about what you are saying? –  user3303805 Apr 10 at 18:59
for complicated objects, you need a complicated system. e.g. 0 = space is empty 1 = space has a chair, 2 = space has a table. and for different sized objects, you'd need some way of assigning mappings.e.g. "map grids (1,1)-(3,4) contains table of type X" –  Marc B Apr 10 at 20:23