LARA

Axioms for Equality

The following definitions are useful when axiomatizing equality in a logic that does not have equality built in. It is also useful when discussing algorithms that automate reasoning about equality.

For language ${\cal L}$ and a relation symbol $eq \notin {\cal L}$, the theory of equality, denoted AxEq, is the following set of formulas:

  • Reflexivity:
  • Symmetry:
  • Transitivity:
  • Congruence for function symbols: for $f \in {\cal L}$ function symbol with $ar(f)=n$,
  • Congruence for relation symbols: for $R \in {\cal L}$ relation symbol with $ar(R)=n$,

Definition: if an interpretation $I = (D,\alpha)$ the axioms $AxEq$ are true, then we call $\alpha(eq)$ (the interpretation of eq) a congruence relation for interpretation $I$.

Side remark: Functions are relations. However, the condition above for function symbols is weaker than the condition for relation symbols. If $f$ is a function, then the relation $\{(x_1,\ldots,x_n,f(x_1,\ldots,x_n)) \mid x_1,\ldots,x_n \in D \}$ does not satisfy the congruence condition because it only has one result, namely $f(x_1,\ldots,x_n)$, and not all the results that are in relation eq with $f(x_1,\ldots,x_n)$. However, if we start from the condition for functions and treat relations as functions that return true or false, we obtain the condition for relations. So, it makes sense here to treat relations as a special case of functions.

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