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4.14.3 module operations
+
- addition (concatenation of the generators and simplification)
*
- multiplication with ideal or poly (but not `module` * `module`!)
- module_expression
[ int_expression , int_expression ]
- is a module entry, where the first index indicates the row and
the second the column
- module_expressions
[ int_expression ]
- is a vector, where the index indicates the column (generator)
Example:
| ring r=0,(x,y,z),dp;
module m=[x,y],[0,0,z];
print(m*(x+y));
==> x2+xy,0,
==> xy+y2,0,
==> 0, xz+yz
// this is not distributive:
print(m*x+m*y);
==> x2,0, xy,0,
==> xy,0, y2,0,
==> 0, xz,0, yz
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