Esempio n. 1
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# Geneate graphs from real data

import networkx as nx
import rw
import numpy as np

subs=['S101','S102','S103','S104','S105','S106','S107','S108','S109','S110',
      'S111','S112','S113','S114','S115','S116','S117','S118','S119','S120']
#subs=['S1','S2','S3','S4','S5','S7','S8','S9','S10','S11','S12','S13']

toydata=rw.Toydata({
        'numx': 3,
        'trim': 1,
        'jump': 0.0,
        'jumptype': "stationary",
        'priming': 0.0,
        'startX': "stationary"})

fitinfo=rw.Fitinfo({
        'startGraph': "windowgraph_valid",
        'windowgraph_size': 2,
        'windowgraph_threshold': 2,
        'followtype': "avg", 
        'prior_samplesize': 10000,
        'recorddir': "records/",
        'directed': True,
        'prune_limit': np.inf,
        'triangle_limit': np.inf,
        'other_limit': np.inf})

toygraphs=rw.Toygraphs({
Esempio n. 2
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import rw

toydata = rw.Toydata({
    'numx': range(250, 251),
    'priming': 0.3,
    'jump': 0.0,
    'trim': 0.7,
    'jumptype': "stationary",
    'startX': "stationary"
})

fitinfo = rw.Fitinfo({
    'startGraph': "windowgraph_valid",
    'followtype': "avg",
    'record': False,
    'recorddir': "records/",
    'prune_limit': 100,
    'triangle_limit': 100,
    'other_limit': 100
})

toygraph = rw.Toygraphs({
    'graphtype': "steyvers",
    'numnodes': 50,
    'numlinks': 6
})

fh = open('priming_test.csv', 'w')

seed = 15
Esempio n. 3
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import rw
import numpy as np

outfile='log.csv'
header=1

toygraphs=rw.Toygraphs({
        'numgraphs': 5,
        'graphtype': "steyvers",
        'numnodes': 50,
        'numlinks': 6,
        'prob_rewire': .3})

toydata=rw.Toydata({
        'numx': range(5,40),
        'trim': .7,
        'jump': 0.0,
        'jumptype': "stationary",
        'startX': "stationary"})

irts=rw.Irts({
        'data': [],
        'irttype': "gamma",
        'beta': (1/1.1), 
        'irt_weight': 0.9,
        'rcutoff': 20})

#TODO: add window params (c)?
fitinfo=rw.Fitinfo({
        'startGraph': "windowgraph_valid",
        'windowgraph_size': 2,
        'windowgraph_threshold': 2,
Esempio n. 4
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outfile = 'tmp.csv'
header = 1

toygraphs = rw.Toygraphs({
    'numgraphs': 10,
    'graphtype': "steyvers",
    'numnodes': 30,
    'numlinks': 6,
    'prob_rewire': .3
})

toydata = rw.Toydata({
    'numx': range(5, 25),
    'trim': .7,
    'jump': 0.0,
    'jumptype': "uniform",
    'startX': "uniform"
})

irts = rw.Irts({
    'data': [],
    'irttype': "gamma",
    'beta': (1 / 1.1),
    'irt_weight': 0.9,
    'rcutoff': 20
})

fitinfo = rw.Fitinfo({
    'tolerance': 1500,
    'startGraph': "naiverw",
Esempio n. 5
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import networkx as nx
import rw
import numpy as np
import math
import csv
subs = [
    'S101', 'S102', 'S103', 'S104', 'S105', 'S106', 'S107', 'S108', 'S109',
    'S110', 'S111', 'S112', 'S113', 'S114', 'S115', 'S116', 'S117', 'S118',
    'S119', 'S120'
]

toydata = rw.Toydata({
    'numx': 1,
    'trim': 1.0,
    'jump': 0.6,
    'priming': 0.0,
    'jumptype': "stationary",
    'jumponcensored': None,
    'startX': "stationary"
})

# should be same as above, but keep this one un-edited just in case :)
toydata_base = rw.Toydata({
    'numx': 1,
    'trim': 1.0,
    'jump': 0.0,
    'priming': 0.0,
    'jumptype': "stationary",
    'jumponcensored': None,
    'startX': "stationary"
})