# scipy minimize with constraints

I know that this question should be handled in the manual of scipy.optimize, but I don't understand it well enough. Maybe you can help

I have a function (this is just an example, not the real function, but I need to understand it at this level):

Edit (better example):

Let's suppose I have a matrix

``````arr = array([[0.8, 0.2],[-0.1, 0.14]])
``````

with a target function

``````def matr_t(t):
return array([[t, 0],[t+complex(0,1)*t, t]]

def target(t):
arr2 = matr_t(t)
ret = 0
for i, v1 in enumerate(arr):
for j, v2 in enumerate(v1):
ret += abs(arr[i][j]-arr2[i][j])**2
return ret
``````

now I want to minimize this target function under the assumption that the t[i] are real numbers, and something like `t+t=1`

This constraint

``````t + t = 1
``````

would be an equality (`type='eq'`) constraint, where you make a function that must equal zero:

``````def con(t):
return t + t - 1
``````

Then you make a `dict` of your constraint (list of dicts if more than one):

``````cons = {'type':'eq', 'fun': con}
``````

I've never tried it, but I believe that to keep `t` real, you could use:

``````con_real(t):
return np.sum(np.iscomplex(t))
``````

And make your `cons` include both constraints:

``````cons = [{'type':'eq', 'fun': con},
{'type':'eq', 'fun': con_real}]
``````

Then you feed `cons` into `minimize` as:

``````scipy.optimize.minimize(func, x0, constraints=cons)
``````
• @user1943296 Not exactly sure how to implement that, if your input is complex, the output might be too. The first constraint might imply that `t.imag.sum()` is zero, since we're only comparing it to real 1, but my edit shows a more explicit constraint. Nov 19, 2013 at 16:44
• how to do that if I want `con` >0 , <0, >=0 or <=0 ,I find `type` only has two type `ineq` and `eq`
– wyx
Aug 1, 2018 at 9:21
• @wyx From the doc: "Equality constraint means that the constraint function result is to be zero whereas inequality means that it is to be non-negative. Note that COBYLA only supports inequality constraints". Your can always rewrite your eq/ineq constraint to express it as such.
– doc
Aug 17, 2018 at 17:23