Using pyAgrum

Creative Commons License

aGrUM

interactive online version

In [1]:
%matplotlib inline
from pylab import *
import matplotlib.pyplot as plt

import os

Initialisation

  • importing pyAgrum

  • importing pyAgrum.lib tools

  • loading a BN

In [2]:
import pyAgrum as gum
import pyAgrum.lib.notebook as gnb
gnb.configuration()
LibraryVersion
OSnt [win32]
Python3.11.0 (main, Oct 24 2022, 18:26:48) [MSC v.1933 64 bit (AMD64)]
IPython8.6.0
Matplotlib3.6.2
Numpy1.23.4
pyDot1.4.2
pyAgrum1.4.1.9
Fri Nov 11 19:23:12 2022 Paris, Madrid
In [3]:
bn=gum.loadBN("res/alarm.dsl")
gnb.showBN(bn,size='9')
../_images/notebooks_02-Tutorial_Tutorial2_5_0.svg

Visualisation and inspection

In [4]:
print(bn.variableFromName('SHUNT'))
SHUNT:Labelized({NORMAL|HIGH})
In [5]:
print(bn.cpt(bn.idFromName('SHUNT')))

             ||  SHUNT            |
PULMEM|INTUBA||NORMAL   |HIGH     |
------|------||---------|---------|
TRUE  |NORMAL|| 0.1000  | 0.9000  |
FALSE |NORMAL|| 0.9500  | 0.0500  |
TRUE  |ESOPHA|| 0.1000  | 0.9000  |
FALSE |ESOPHA|| 0.9500  | 0.0500  |
TRUE  |ONESID|| 0.0100  | 0.9900  |
FALSE |ONESID|| 0.0500  | 0.9500  |

In [6]:
gnb.showPotential(bn.cpt(bn.idFromName('SHUNT')),digits=3)
SHUNT
INTUBATION
PULMEMBOLUS
NORMAL
HIGH
NORMAL
TRUE
0.1000.900
FALSE
0.9500.050
ESOPHAGEAL
TRUE
0.1000.900
FALSE
0.9500.050
ONESIDED
TRUE
0.0100.990
FALSE
0.0500.950

Results of inference

It is easy to look at result of inference

In [7]:
gnb.showPosterior(bn,{'SHUNT':'HIGH'},'PRESS')
../_images/notebooks_02-Tutorial_Tutorial2_11_0.svg
In [8]:
gnb.showPosterior(bn,{'MINVOLSET':'NORMAL'},'VENTALV')
../_images/notebooks_02-Tutorial_Tutorial2_12_0.svg

Overall results

In [9]:
gnb.showInference(bn,size="10")
../_images/notebooks_02-Tutorial_Tutorial2_14_0.svg

What is the impact of observed variables (SHUNT and VENTALV for instance) on another on (PRESS) ?

In [10]:
ie=gum.LazyPropagation(bn)
ie.evidenceImpact('PRESS',['SHUNT','VENTALV'])
Out[10]:
PRESS
SHUNT
VENTALV
ZERO
LOW
NORMAL
HIGH
NORMAL
ZERO
0.05690.26690.20050.4757
LOW
0.02080.25150.05530.6724
NORMAL
0.07690.32670.17720.4192
HIGH
0.05010.16330.27960.5071
HIGH
ZERO
0.05890.27260.19970.4688
LOW
0.03180.22370.05210.6924
NORMAL
0.17350.58390.14020.1024
HIGH
0.07110.23470.25330.4410

Using inference as a function

It is also easy to use inference as a routine in more complex procedures.

In [11]:
import time
r=range(0,100,2)
xs=[x/100.0 for x in r]

tf=time.time()
ys=[gum.getPosterior(bn,{'MINVOLSET':[0,x/100.0,0.5]},'VENTALV').tolist()
        for x in r]
delta=time.time()-tf

p=plot(xs,ys)
legend(p,[bn.variableFromName('VENTALV').label(i)
          for i in range(bn.variableFromName('VENTALV').domainSize())],loc=7);
title('VENTALV (100 inferences in %d ms)'%delta);
ylabel('posterior Probability');
xlabel('Evidence on MINVOLSET : [0,x,0.5]')
plt.show()
../_images/notebooks_02-Tutorial_Tutorial2_18_0.svg

Another example : python gives access to a large set of tools. Here the value for the equality of two probabilities of a posterior is easely computed.

In [12]:
x=[p/100.0 for p in range(0,100)]

tf=time.time()
y=[gum.getPosterior(bn,{'HRBP':[1.0-p/100.0,1.0-p/100.0,p/100.0]},'TPR').tolist()
   for p in range(0,100)]
delta=time.time()-tf

p=plot(x,y)
title('HRBP (100 inferences in %d ms)'%delta);
v=bn.variableFromName('TPR');
legend([v.label(i) for i in range(v.domainSize())],loc='best');
np1=(transpose(y)[0]>transpose(y)[2]).argmin()
text(x[np1]-0.05,y[np1][0]+0.005,str(x[np1]),bbox=dict(facecolor='red', alpha=0.1))
plt.show()
../_images/notebooks_02-Tutorial_Tutorial2_20_0.svg

BN as a classifier

Generation of databases

Using the CSV format for the database:

In [13]:
gum.generateSample(bn,1000,"out/test.csv",with_labels=True)
Out[13]:
-14945.197100314608
In [14]:
with open("out/test.csv","r") as src:
    for _ in range(10):
        print(src.readline(),end="")
PVSAT,CVP,LVFAILURE,TPR,EXPCO2,CO,ERRLOWOUTPUT,HRSAT,HYPOVOLEMIA,HRBP,BP,VENTLUNG,PCWP,DISCONNECT,CATECHOL,SHUNT,MINVOLSET,PRESS,PAP,HR,SAO2,VENTTUBE,PULMEMBOLUS,MINVOL,VENTMACH,INTUBATION,ANAPHYLAXIS,HISTORY,LVEDVOLUME,INSUFFANESTH,VENTALV,ARTCO2,HREKG,KINKEDTUBE,FIO2,ERRCAUTER,STROKEVOLUME
LOW,NORMAL,FALSE,HIGH,LOW,NORMAL,FALSE,LOW,FALSE,LOW,HIGH,ZERO,NORMAL,FALSE,HIGH,NORMAL,NORMAL,NORMAL,NORMAL,NORMAL,LOW,LOW,FALSE,ZERO,NORMAL,NORMAL,FALSE,FALSE,NORMAL,FALSE,ZERO,HIGH,NORMAL,FALSE,NORMAL,FALSE,NORMAL
LOW,NORMAL,FALSE,NORMAL,LOW,LOW,FALSE,HIGH,FALSE,HIGH,LOW,ZERO,NORMAL,FALSE,HIGH,NORMAL,NORMAL,NORMAL,NORMAL,HIGH,LOW,LOW,FALSE,ZERO,NORMAL,NORMAL,FALSE,FALSE,NORMAL,FALSE,ZERO,HIGH,HIGH,FALSE,NORMAL,FALSE,LOW
LOW,NORMAL,FALSE,LOW,LOW,HIGH,TRUE,NORMAL,FALSE,NORMAL,HIGH,ZERO,NORMAL,FALSE,HIGH,NORMAL,NORMAL,HIGH,NORMAL,HIGH,LOW,LOW,FALSE,ZERO,NORMAL,NORMAL,FALSE,FALSE,NORMAL,TRUE,ZERO,HIGH,HIGH,FALSE,NORMAL,FALSE,NORMAL
LOW,LOW,FALSE,HIGH,ZERO,NORMAL,FALSE,HIGH,FALSE,HIGH,HIGH,ZERO,LOW,TRUE,HIGH,HIGH,NORMAL,HIGH,NORMAL,HIGH,LOW,ZERO,FALSE,ZERO,NORMAL,ONESIDED,FALSE,FALSE,LOW,FALSE,NORMAL,LOW,HIGH,FALSE,NORMAL,FALSE,NORMAL
LOW,NORMAL,FALSE,NORMAL,LOW,HIGH,FALSE,HIGH,FALSE,HIGH,NORMAL,ZERO,NORMAL,FALSE,HIGH,NORMAL,NORMAL,HIGH,NORMAL,HIGH,LOW,LOW,FALSE,ZERO,NORMAL,NORMAL,FALSE,FALSE,NORMAL,FALSE,ZERO,HIGH,HIGH,FALSE,NORMAL,FALSE,NORMAL
HIGH,NORMAL,FALSE,HIGH,LOW,HIGH,FALSE,HIGH,FALSE,HIGH,HIGH,ZERO,NORMAL,FALSE,HIGH,NORMAL,NORMAL,LOW,LOW,HIGH,NORMAL,ZERO,FALSE,ZERO,ZERO,NORMAL,FALSE,FALSE,NORMAL,FALSE,ZERO,HIGH,HIGH,FALSE,NORMAL,FALSE,NORMAL
LOW,NORMAL,FALSE,NORMAL,LOW,HIGH,FALSE,HIGH,FALSE,HIGH,HIGH,ZERO,NORMAL,TRUE,HIGH,NORMAL,NORMAL,ZERO,NORMAL,HIGH,LOW,ZERO,FALSE,ZERO,NORMAL,NORMAL,FALSE,FALSE,NORMAL,TRUE,ZERO,HIGH,HIGH,FALSE,NORMAL,FALSE,NORMAL
LOW,HIGH,FALSE,HIGH,LOW,LOW,FALSE,HIGH,TRUE,HIGH,LOW,ZERO,HIGH,FALSE,HIGH,HIGH,NORMAL,NORMAL,NORMAL,HIGH,LOW,LOW,FALSE,ZERO,NORMAL,NORMAL,FALSE,FALSE,HIGH,FALSE,ZERO,HIGH,HIGH,FALSE,NORMAL,FALSE,LOW
LOW,HIGH,FALSE,LOW,LOW,LOW,FALSE,HIGH,TRUE,HIGH,LOW,ZERO,HIGH,TRUE,HIGH,NORMAL,NORMAL,ZERO,NORMAL,HIGH,LOW,ZERO,FALSE,ZERO,NORMAL,NORMAL,TRUE,FALSE,HIGH,FALSE,ZERO,HIGH,HIGH,FALSE,NORMAL,FALSE,LOW

probabilistic classifier using BN

(because of the use of from-bn-generated csv files, quite good ROC curves are expected)

In [15]:
from pyAgrum.lib.bn2roc import showROC_PR

showROC_PR(bn,"out/test.csv",
        target='CATECHOL',label='HIGH',  # class and label
        show_progress=True,show_fig=True,with_labels=True)
out/test.csv: 100%|███████████████████████████████████████████████████████████████████████████|
../_images/notebooks_02-Tutorial_Tutorial2_26_1.svg
Out[15]:
(0.9723396758280479, 0.9300899828, 0.9984481852568516, 0.5708294528)

Using another class variable

In [16]:
showROC_PR(bn,"out/test.csv",'SAO2','HIGH',show_progress=True)
out/test.csv: 100%|███████████████████████████████████████████████████████████████████████████|
../_images/notebooks_02-Tutorial_Tutorial2_28_1.svg
Out[16]:
(0.9802274270196877, 0.048531175, 0.8288904404289019, 0.09816538375)

Fast prototyping for BNs

In [17]:
bn1=gum.fastBN("a->b;a->c;b->c;c->d",3)

gnb.sideBySide(*[gnb.getInference(bn1,evs={'c':val},targets={'a','c','d'}) for val in range(3)],
              captions=[f"Inference given that $c={val}$" for val in range(3)])
structs Inference in   0.00ms a 2022-11-11T19:23:18.502317 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ b b a->b c 2022-11-11T19:23:18.581592 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ a->c b->c d 2022-11-11T19:23:18.765873 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ c->d
Inference given that $c=0$
structs Inference in   0.00ms a 2022-11-11T19:23:18.967317 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ b b a->b c 2022-11-11T19:23:19.066690 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ a->c b->c d 2022-11-11T19:23:19.124365 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ c->d
Inference given that $c=1$
structs Inference in   0.00ms a 2022-11-11T19:23:19.381057 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ b b a->b c 2022-11-11T19:23:19.457993 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ a->c b->c d 2022-11-11T19:23:19.532255 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ c->d
Inference given that $c=2$
In [18]:
print(gum.getPosterior(bn1,evs={'c':0},target='c'))
print(gum.getPosterior(bn1,evs={'c':0},target='d'))

# using pyagrum.lib.notebook's helpers
gnb.flow.row(gum.getPosterior(bn1,evs={'c':0},target='c'),gum.getPosterior(bn1,evs={'c':0},target='d'))

  c                          |
0        |1        |2        |
---------|---------|---------|
 1.0000  | 0.0000  | 0.0000  |


  d                          |
0        |1        |2        |
---------|---------|---------|
 0.6638  | 0.1259  | 0.2103  |

c
0
1
2
1.00000.00000.0000
d
0
1
2
0.66380.12590.2103

Joint posterior, impact of multiple evidence

In [19]:
bn=gum.fastBN("a->b->c->d;b->e->d->f;g->c")
gnb.sideBySide(bn,gnb.getInference(bn))
G f f g g c c g->c d d c->d d->f b b b->c e e b->e a a a->b e->d
structs Inference in   2.00ms a 2022-11-11T19:23:19.825042 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ b 2022-11-11T19:23:19.887128 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ a->b c 2022-11-11T19:23:19.941191 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ b->c e 2022-11-11T19:23:20.130200 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ b->e d 2022-11-11T19:23:20.017297 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ c->d f 2022-11-11T19:23:20.181823 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ d->f e->d g 2022-11-11T19:23:20.377240 image/svg+xml Matplotlib v3.6.2, https://matplotlib.org/ g->c
In [20]:
ie=gum.LazyPropagation(bn)
ie.addJointTarget({"e","f","g"})
ie.makeInference()
gnb.sideBySide(ie.jointPosterior({"e","f","g"}),ie.jointPosterior({"e","g"}),
               captions=["Joint posterior $P(e,f,g)$","Joint posterior $P(e,f)$"])
g
f
e
0
1
0
0
0.11390.1285
1
0.03740.0484
1
0
0.23670.3159
1
0.05290.0662

Joint posterior $P(e,f,g)$
g
e
0
1
0
0.35060.4445
1
0.09040.1146

Joint posterior $P(e,f)$
In [21]:
gnb.sideBySide(ie.evidenceImpact("a",["e","f"]),ie.evidenceImpact("a",["d","e","f"]),
              captions=["$\\forall e,f, P(a|e,f)$",
                        "$\\forall d,e,f, P(a|d,e,f)=P(a|d,e)$ using d-separation"]
                        )
a
f
e
0
1
0
0
0.49350.5065
1
0.65240.3476
1
0
0.50570.4943
1
0.65200.3480

$\forall e,f, P(a|e,f)$
a
e
d
0
1
0
0
0.51760.4824
1
0.47890.5211
1
0
0.65010.3499
1
0.65260.3474

$\forall d,e,f, P(a|d,e,f)=P(a|d,e)$ using d-separation
In [22]:
gnb.sideBySide(ie.evidenceJointImpact(["a","b"],["e","f"]),ie.evidenceJointImpact(["a","b"],["d","e","f"]),
              captions=["$\\forall e,f, P(a,b|e,f)$",
                        "$\\forall d,e,f, P(a,b|d,e,f)=P(a,b|d,e)$ using d-separation"]
                        )
b
f
e
a
0
1
0
0
0
0.49090.0027
1
0.22670.2797
1
0
0.65200.0004
1
0.30110.0464
1
0
0
0.50320.0025
1
0.23240.2618
1
0
0.65150.0004
1
0.30090.0471

$\forall e,f, P(a,b|e,f)$
b
e
d
a
0
1
0
0
0
0.51530.0023
1
0.23800.2443
1
0
0.47600.0029
1
0.21990.3012
1
0
0
0.64960.0005
1
0.30010.0499
1
0
0.65220.0004
1
0.30120.0461

$\forall d,e,f, P(a,b|d,e,f)=P(a,b|d,e)$ using d-separation
In [ ]: