# Sympy notation for matrix multiplication

In numpy it is standard to define matrices and dot product as shown below

``````import numpy as np
a = np.array([[1, 2, 3], [4, 5, 6]])
b = np.array([[7, 8, 9, 10], [11, 12, 13, 14], [15, 16, 17, 18]])
print(a.shape)
print(b.shape)
print(a.dot(b).shape)
``````

which outputs as expected:

``````(2, 3)
(3, 4)
(2, 4)
``````

But to my surprise the following fails in sympy

``````import sympy as sp
a = sp.Matrix([[1, 2, 3], [4, 5, 6]])
b = sp.Matrix([[7, 8, 9, 10], [11, 12, 13, 14], [15, 16, 17, 18]])
print(a.shape)
print(b.shape)
print(a.dot(b).shape)
``````

which outputs

``````(2, 3)
(3, 4)

---------------------------------------------------------------------------
ShapeError                                Traceback (most recent call last)
<ipython-input-30-50c934c7fbaf> in <module>()
4 print(a.shape)
5 print(b.shape)
----> 6 print(a.dot(b).shape)

~/miniconda3/lib/python3.6/site-packages/sympy/matrices/matrices.py in dot(self, b)
2389                 mat = mat.T
2390                 b = b.T
-> 2391             prod = flatten((mat * b).tolist())
2392             if len(prod) == 1:
2393                 return prod

~/miniconda3/lib/python3.6/site-packages/sympy/core/decorators.py in binary_op_wrapper(self, other)
130                     else:
131                         return f(self)
--> 132             return func(self, other)
133         return binary_op_wrapper
134     return priority_decorator

~/miniconda3/lib/python3.6/site-packages/sympy/matrices/common.py in __mul__(self, other)
2006             if self.shape != other.shape:
2007                 raise ShapeError("Matrix size mismatch: %s * %s." % (
-> 2008                     self.shape, other.shape))
2009
2010         # honest sympy matrices defer to their class's routine

ShapeError: Matrix size mismatch: (3, 2) * (4, 3).
``````

This is confusing for me!

Why the inconsistency between numpy and sympy?

Why can't I find a warning of this behaviour in sympy's documentation?

How can I correctly compute the dot product of two matrices in sympy?

May I suggest that the documentation of sympy has an entry on the differences of syntax between numpy and sympy. (I would gladly contribute but I have no idea on those differences)

• I don't think there is much similarity between NumPy syntax and SymPy syntax. The differences would be everything so one may as well read the docs. – user6655984 Apr 20 '18 at 19:42

Matrix product in SymPy is computed as `a*b`.

The method `dot` in SymPy is meant to allow computing dot products of two matrices that represent vectors, for example:

``````>>> sp.Matrix([1, 2]).dot(sp.Matrix([3, 4]))
11
``````

is the dot product of two column-vectors. There is a transpose involved in this.

Return the dot product of Matrix self and b relaxing the condition of compatible dimensions: if either the number of rows or columns are the same as the length of b then the dot product is returned. If self is a row or column vector, a scalar is returned. Otherwise, a list of results is returned (and in that case the number of columns in self must match the length of b).

I'll post here a reply from the developers of SymPy on Github:

As a general rule, in NumPy, all operations vectorize over arrays. In SymPy, operations do their usual mathematical meaning. This means that SymPy is generally more restrictive to keeping things mathematically "pure".

The most obvious one first: in NumPy, everything is numeric. Functions take a number or array of numbers and produce a number or array of numbers. In SymPy, everything is symbolic. Expressions can use symbolic variables that remain unevaluated by default. For example, np.exp(np.pi) produces a number, but sympy.exp(sympy.pi) produces an unevaluated expression (which can be evaluated to a number with sympy.exp(sympy.pi).evalf()).

In general, SymPy functions will not work on NumPy arrays and NumPy functions will not work on SymPy expressions. If you want to mix SymPy and NumPy, it is recommended to use lambdify (start with a SymPy expression using only SymPy functions, then use lambdify to convert it to an equivalent NumPy function, and use that on NumPy arrays with NumPy numeric types). I've discussed this on StackOverflow many times.

'*' is matrix multiplication. Note that @ (Python 3.5+) does matrix multiplication in both NumPy and SymPy.

sympy.Matrix is always rank 2. NumPy arrays can be any rank. Note that dot/@ in NumPy work on any rank array. There is some weird behavior on rank 1 arrays (it basically treats them as both column or row vectors, depending on the context).

Calling a mathematical function on a matrix in SymPy, if it works, performs the analytic matrix valuation of that function. For example, exp(M) computes the matrix exponential. Matrix.applyfunc can be used to apply functions elementwise. In NumPy, exp(A) takes the exponential of each element of A (use scipy.linalg.expm to take a matrix exponential of a NumPy array).

np.dot does matrix multiplication. In SymPy, dot does a dot product (takes two 1xn or nx1 matrices and produces a scalar). sympy.dot errors (actually currently in master gives a deprecation warning) if the arguments are not 1xn.

A 1x1 matrix is not considered the same thing as a scalar in SymPy. 1 + Matrix([]) is an error.