# Build graph of connected nodes with dictionary [closed]

I'm writing a program for calculating the fastest time for a sailboat. I have a 4x4 matrix, i.e. 16 nodes. From every node I can go 8 different directions. I know the time of travel in every direction from every node in a big list, so it's now 8*16 characters long. The beginning of the list looks like this:

``````TravelTime = [0.7, 0.5, 10000, 0.5, 0.7, 1.6, 1.3, 1.6, 0.6, 0.5, 0.6, 0.9, 0.6, 0.5, 10000, 10000]...
``````

where the first 8 numbers tells the travel time for all the directions from `Node11`, and the next 8 numbers tells the time for all the directions from `Node12`. And so it continues until the last information for `Node44`. For example `TravelTime[0]` tells me the time to travel straight up from `Node11` to `Node12`. Now I need to save this to a dictionary so I present it like:

``````Graph = {
'Node11': ['Node12', 0.7], ['Node22', 0.5], ['Node21', 10000], ['Node20', 0.5], ['Node10', 0.7], ['Node00', 1.6], ['Node01', 1.3], ['Node02', 1.6], and then it continues for the next Node:
'Node12': ['Node13', 0.6], ['Node23', 0.5], ['Node22', 0.6], ['Node21', 0.9], ['Node11', 0.6], ['Node01', 0.5], ['Node02', 10000], ['Node03', 10000]
}
``````

The numbers after 'Node' equals the coordinates of the node. It starts by travelling north and it goes clockwise, in total 8 different directions.

SO: How do I write a function that constructs a dictionary like the one above?

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## closed as not a real question by Ben, ataylor, ekhumoro, evilone, hims056Dec 5 '12 at 6:55

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You haven't provided any code, so I'm not going to write your whole solution for you. Your input data is very structured, i.e. everything has fixed length, so you can use fixed length loops:

``````Graph = {}
for nodeIdx in range(16):
Node = {}
for directionIdx in range(8):
# construct your node list from TravelTime
nodeNumber = # Figure out nodeNumber
Graph[nodeNumber] = Node
``````

You should be able to figure out how to pick the indexes from TravelTime based on `nodeIdx` and `directionIdx`. Hope this is a good start.

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lets say that we want output a dictionary in this format:

Graph = { 'Node11':[['Node12':0.7],[ ],..., []] # to assign a single list value to each key in the dictionary

}

and that travelTime is a list with 8*16 values.

We can work roughly with string construction of this dictionary. This can be a solution:

``````t = TravelTime
movements = [(0,1),(1,1),(1,0),(1,-1),(0,-1),(-1,-1),(-1,0),(-1,1)] # the order of movements described by you

output = '{'
for i in range(1,5):
for j in range(1,5):
output+="\n'Node"+str(i)+str(j)+"': [" #the key in the dictionary
for k in range(8):
output+="["+"'Node"+str(i+movements[k][0])+str(j+movements[k][1])+"', "+str(t[((i+j)-2)*8+k])+"],"  #the value of dictonary
output=output[:-1]+'],'  # remove last comma and close the list bracket
output=output[:-1]+'\n}'    #remove last comma and insert last dictionary bracket

Graph = eval(output)   # last step to use Graph as a dictionary
``````

it will outputs something like (with 8 times repeated input):

``````{'Node11': [['Node12', 0.7], ['Node22', 0.5], ['Node21', 10000], ['Node20', 0.5], ['Node10', 0.7], ['Node00', 1.6], ['Node01', 1.3], ['Node02', 1.6]], 'Node13': [['Node14', 0.7], ['Node24', 0.5], ['Node23', 10000], ['Node22', 0.5], ['Node12', 0.7], ['Node02', 1.6], ['Node03', 1.3], ['Node04', 1.6]], 'Node12': [['Node13', 0.6], ['Node23', 0.5], ['Node22', 0.6], ['Node21', 0.9], ['Node11', 0.6], ['Node01', 0.5], ['Node02', 10000], ['Node03', 10000]], 'Node14': [['Node15', 0.6], ['Node25', 0.5], ['Node24', 0.6], ['Node23', 0.9], ['Node13', 0.6], ['Node03', 0.5], ['Node04', 10000], ['Node05', 10000]], 'Node24': [['Node25', 0.7], ['Node35', 0.5], ['Node34', 10000], ['Node33', 0.5], ['Node23', 0.7], ['Node13', 1.6], ['Node14', 1.3], ['Node15', 1.6]], 'Node32': [['Node33', 0.6], ['Node43', 0.5], ['Node42', 0.6], ['Node41', 0.9], ['Node31', 0.6], ['Node21', 0.5], ['Node22', 10000], ['Node23', 10000]], 'Node31': [['Node32', 0.7], ['Node42', 0.5], ['Node41', 10000], ['Node40', 0.5], ['Node30', 0.7], ['Node20', 1.6], ['Node21', 1.3], ['Node22', 1.6]], 'Node21': [['Node22', 0.6], ['Node32', 0.5], ['Node31', 0.6], ['Node30', 0.9], ['Node20', 0.6], ['Node10', 0.5], ['Node11', 10000], ['Node12', 10000]], 'Node22': [['Node23', 0.7], ['Node33', 0.5], ['Node32', 10000], ['Node31', 0.5], ['Node21', 0.7], ['Node11', 1.6], ['Node12', 1.3], ['Node13', 1.6]], 'Node23': [['Node24', 0.6], ['Node34', 0.5], ['Node33', 0.6], ['Node32', 0.9], ['Node22', 0.6], ['Node12', 0.5], ['Node13', 10000], ['Node14', 10000]], 'Node33': [['Node34', 0.7], ['Node44', 0.5], ['Node43', 10000], ['Node42', 0.5], ['Node32', 0.7], ['Node22', 1.6], ['Node23', 1.3], ['Node24', 1.6]], 'Node44': [['Node45', 0.7], ['Node55', 0.5], ['Node54', 10000], ['Node53', 0.5], ['Node43', 0.7], ['Node33', 1.6], ['Node34', 1.3], ['Node35', 1.6]], 'Node34': [['Node35', 0.6], ['Node45', 0.5], ['Node44', 0.6], ['Node43', 0.9], ['Node33', 0.6], ['Node23', 0.5], ['Node24', 10000], ['Node25', 10000]], 'Node42': [['Node43', 0.7], ['Node53', 0.5], ['Node52', 10000], ['Node51', 0.5], ['Node41', 0.7], ['Node31', 1.6], ['Node32', 1.3], ['Node33', 1.6]], 'Node43': [['Node44', 0.6], ['Node54', 0.5], ['Node53', 0.6], ['Node52', 0.9], ['Node42', 0.6], ['Node32', 0.5], ['Node33', 10000], ['Node34', 10000]], 'Node41': [['Node42', 0.6], ['Node52', 0.5], ['Node51', 0.6], ['Node50', 0.9], ['Node40', 0.6], ['Node30', 0.5], ['Node31', 10000], ['Node32', 10000]]}
``````

of course here there is 5 and 0 nodes that could be reached at the edge.

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Thanks a lot. The problem though is that I will now visit nodes like Node55, of which I have no data and I can't travel to a node outside my map. For example, 'Node44' is a corner node and mustn't visit other nodes than Node43, Node33 and Node 34. Maybe I should add an if-statement to your function? –  Gianfranco Gabassi Dec 5 '12 at 18:16
Yes, you could do that. I have done in that way because you said that you have an input of 8*16 elements, thus you always have 8 values for each node and the first one, for example, refers to an external one. On the border, you can simply assign an infinite value, for example from Node44 to Node45. This function is useful for you, just adapt it to your input ;) Ciaoo –  caporiccirob Dec 5 '12 at 22:16