The size of a uniform in GLSL is only relevant if that uniform is stored in a uniform block. For non-block uniforms, you don't care; you upload them with
glUniform* and let OpenGL handle any conversions.
For uniform block members, each uniform of basic type has a specific byte size. Individual integers and floats are 32-bits in size. Vectors of those types are that size * the number of components. Matrices are more complex; they are stored as column/row (you can pick) vectors. The stride between columns/rows issomething you have to query, with
glGetActiveUniformsiv (note the "s").
Unless you use std140 layout of course, in which case the matrix stride is always 4 * the number of the basic component type. So in std140 layout, a
mat4x2, stored column-major, represents 4 column vectors of
vec2s, but the stride between individual column vectors is 4 * sizeof(float), not 2 * sizeof(float). So there's 2 floats worth of padding.
In short, there's no reason to care. If it's a non-block uniform, the size is irrelevant. If it's a uniform block uniform, then you should be using std140 layout anyway and thus can compute it a priori.