I tried the following code, but I ran into problems. I think .values is the problem but how do I encode this as a Theano object?

The following is my data source

```
home_team,away_team,home_score,away_score
Wales,Italy,23,15
France,England,26,24
Ireland,Scotland,28,6
Ireland,Wales,26,3
Scotland,England,0,20
France,Italy,30,10
Wales,France,27,6
Italy,Scotland,20,21
England,Ireland,13,10
Ireland,Italy,46,7
Scotland,France,17,19
England,Wales,29,18
Italy,England,11,52
Wales,Scotland,51,3
France,Ireland,20,22
```

Here is the PyMC2 Code which works: data_file = DATA_DIR + 'results_2014.csv'

```
df = pd.read_csv(data_file, sep=',')
# Or whatever it takes to get this into a data frame.
teams = df.home_team.unique()
teams = pd.DataFrame(teams, columns=['team'])
teams['i'] = teams.index
df = pd.merge(df, teams, left_on='home_team', right_on='team', how='left')
df = df.rename(columns = {'i': 'i_home'}).drop('team', 1)
df = pd.merge(df, teams, left_on='away_team', right_on='team', how='left')
df = df.rename(columns = {'i': 'i_away'}).drop('team', 1)
observed_home_goals = df.home_score.values
observed_away_goals = df.away_score.values
home_team = df.i_home.values
away_team = df.i_away.values
num_teams = len(df.i_home.drop_duplicates())
num_games = len(home_team)
g = df.groupby('i_away')
att_starting_points = np.log(g.away_score.mean())
g = df.groupby('i_home')
def_starting_points = -np.log(g.away_score.mean())
#hyperpriors
home = pymc.Normal('home', 0, .0001, value=0)
tau_att = pymc.Gamma('tau_att', .1, .1, value=10)
tau_def = pymc.Gamma('tau_def', .1, .1, value=10)
intercept = pymc.Normal('intercept', 0, .0001, value=0)
#team-specific parameters
atts_star = pymc.Normal("atts_star",
mu=0,
tau=tau_att,
size=num_teams,
value=att_starting_points.values)
defs_star = pymc.Normal("defs_star",
mu=0,
tau=tau_def,
size=num_teams,
value=def_starting_points.values)
# trick to code the sum to zero constraint
@pymc.deterministic
def atts(atts_star=atts_star):
atts = atts_star.copy()
atts = atts - np.mean(atts_star)
return atts
@pymc.deterministic
def defs(defs_star=defs_star):
defs = defs_star.copy()
defs = defs - np.mean(defs_star)
return defs
@pymc.deterministic
def home_theta(home_team=home_team,
away_team=away_team,
home=home,
atts=atts,
defs=defs,
intercept=intercept):
return np.exp(intercept +
home +
atts[home_team] +
defs[away_team])
@pymc.deterministic
def away_theta(home_team=home_team,
away_team=away_team,
home=home,
atts=atts,
defs=defs,
intercept=intercept):
return np.exp(intercept +
atts[away_team] +
defs[home_team])
home_points = pymc.Poisson('home_points',
mu=home_theta,
value=observed_home_goals,
observed=True)
away_points = pymc.Poisson('away_points',
mu=away_theta,
value=observed_away_goals,
observed=True)
mcmc = pymc.MCMC([home, intercept, tau_att, tau_def,
home_theta, away_theta,
atts_star, defs_star, atts, defs,
home_points, away_points])
map_ = pymc.MAP( mcmc )
map_.fit()
mcmc.sample(200000, 40000, 20)
```

My attempt at porting to PyMC3 :) And I include the wrangling code. I defined my own data directory etc.

```
data_file = DATA_DIR + 'results_2014.csv'
df = pd.read_csv(data_file, sep=',')
# Or whatever it takes to get this into a data frame.
teams = df.home_team.unique()
teams = pd.DataFrame(teams, columns=['team'])
teams['i'] = teams.index
df = pd.merge(df, teams, left_on='home_team', right_on='team', how='left')
df = df.rename(columns = {'i': 'i_home'}).drop('team', 1)
df = pd.merge(df, teams, left_on='away_team', right_on='team', how='left')
df = df.rename(columns = {'i': 'i_away'}).drop('team', 1)
observed_home_goals = df.home_score.values
observed_away_goals = df.away_score.values
home_team = df.i_home.values
away_team = df.i_away.values
num_teams = len(df.i_home.drop_duplicates())
num_games = len(home_team)
g = df.groupby('i_away')
att_starting_points = np.log(g.away_score.mean())
g = df.groupby('i_home')
def_starting_points = -np.log(g.away_score.mean())
import theano.tensor as T
import pymc3 as pm3
#hyperpriors
x = att_starting_points.values
y = def_starting_points.values
model = pm.Model()
with pm3.Model() as model:
home3 = pm3.Normal('home', 0, .0001)
tau_att3 = pm3.Gamma('tau_att', .1, .1)
tau_def3 = pm3.Gamma('tau_def', .1, .1)
intercept3 = pm3.Normal('intercept', 0, .0001)
#team-specific parameters
atts_star3 = pm3.Normal("atts_star",
mu=0,
tau=tau_att3,
observed=x)
defs_star3 = pm3.Normal("defs_star",
mu=0,
tau=tau_def3,
observed=y)
#Seems to be the error here.
atts = pm3.Deterministic('regression',
atts_star3 - np.mean(atts_star3))
home_theta3 = pm3.Deterministic('regression',
T.exp(intercept3 + atts[away_team] + defs[home_team]))
atts = pm3.Deterministic('regression', atts_star3 - np.mean(atts_star3))
home_theta3 = pm3.Deterministic('regression', T.exp(intercept3 + atts[away_team] + defs[home_team]))
# Unknown model parameters
home_points3 = pm3.Poisson('home_points', mu=home_theta3, observed=observed_home_goals)
away_points3 = pm3.Poisson('away_points', mu=home_theta3, observed=observed_away_goals)
start = pm3.find_MAP()
step = pm3.NUTS(state=start)
trace = pm3.sample(2000, step, start=start, progressbar=True)
pm3.traceplot(trace)
```

And I get an error like values isn't a Theano object. I think this is the .values part above. But i'm confused about how to convert this into a Theano tensor. The tensors are confusing me :)

And the error for clarity, because I've misunderstood something in PyMC3 syntax.

```
---------------------------------------------------------------------------
TypeError Traceback (most recent call last)
<ipython-input-71-ce51c1a64412> in <module>()
23
24 #Seems to be the error here.
---> 25 atts = pm3.Deterministic('regression', atts_star3 - np.mean(atts_star3))
26 home_theta3 = pm3.Deterministic('regression', T.exp(intercept3 + atts[away_team] + defs[home_team]))
27
/Users/peadarcoyle/anaconda/lib/python3.4/site-packages/numpy/core/fromnumeric.py in mean(a, axis, dtype, out, keepdims)
2733
2734 return _methods._mean(a, axis=axis, dtype=dtype,
-> 2735 out=out, keepdims=keepdims)
2736
2737 def std(a, axis=None, dtype=None, out=None, ddof=0, keepdims=False):
/Users/peadarcoyle/anaconda/lib/python3.4/site-packages/numpy/core/_methods.py in _mean(a, axis, dtype, out, keepdims)
71 ret = ret.dtype.type(ret / rcount)
72 else:
---> 73 ret = ret / rcount
74
75 return ret
TypeError: unsupported operand type(s) for /: 'ObservedRV' and 'int'
```

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