General non-structure theory and constructing from linear orders

Abstract: The theme of the first two sections, is to prepare the framework of how from a ``complicated'' family of so called index models $I \in K_1$ we build many and/or complicated structures in a class $K_2$. The index models are characteristically linear orders, trees with $\kappa+1$ levels (possibly with linear order on the set of successors of a member) and linearly ordered graphs; for this we formulate relevant complicatedness properties (called bigness). In the third section we show stronger results concerning linear orders. If for each linear order $I$ of cardinality $\lambda > \aleph_0$ we can attach a model $M_I \in K_\lambda$ in which the linear order can be embedded such that for enough cuts of $I$, their being omitted is reflected in $M_I$, then there are $2^\lambda$ non-isomorphic cases. We also do the work for some applications.