Trinitary algebras

A {\em trinitary algebra} is any subalgebra of the space of smooth functions $f: M \to {\mathbb R}$ that is distinguished in this space by finitely many linear conditions of the form $f(x_i) = f(\tilde x_i) = f(\hat x_i)$, where $x_i, \tilde x_i,$ and $ \hat x_i $ are distinct points in $ M$, $i=1, \dots, k$, or is approximated by such subalgebras. These algebras naturally arise in the study of discriminant varieties, i.e., the spaces of singular geometric objects, in theories where the property of being singular is formulated in terms of simultaneous behavior at three distinct points. Trinitary algebras are analogs of {\em equilevel algebras} of \cite{EA} which are defined by collections of conditions $f(x_i)=f(\tilde x_i)$ and play the same role in the study of discriminants defined by binary singularities. We describe the cell structures of the varieties of all equilevel algebras up to the codimension four in $C^\infty(S^1, {\mathbb R})$ and calculate the homology groups of these varieties.