--- src/theory_bitvector/bitvector_proof_rules.h.orig 2009-10-15 19:12:02.000000000 -0600 +++ src/theory_bitvector/bitvector_proof_rules.h 2011-09-06 11:09:44.567370638 -0600 @@ -540,14 +540,14 @@ namespace CVC3 { std::vector& output_bits) = 0; /** - * Rewrite x_1 \vee x_2 \vee \ldots \vee x_n = 0 into - * x_1 = 0 \wedge x_2 = 0 \wedge \ldots \wedge x_n = 0. + * Rewrite \f[x_1 \vee x_2 \vee \ldots \vee x_n = 0\f] into + * \f[x_1 = 0 \wedge x_2 = 0 \wedge \ldots \wedge x_n = 0\f]. */ virtual Theorem zeroBVOR(const Expr& orEqZero) = 0; /** - * Rewrite x_1 \wedge x_2 \wedge \ldots \wedge x_n = 1^n into - * x_1 = 1^n \wedge x_2 = 1^n \wedge \ldots \wedge x_n = 1^n. + * Rewrite \f[x_1 \wedge x_2 \wedge \ldots \wedge x_n = 1^n\f] into + * \f[x_1 = 1^n \wedge x_2 = 1^n \wedge \ldots \wedge x_n = 1^n\f]. */ virtual Theorem oneBVAND(const Expr& andEqOne) = 0; --- src/theory_bitvector/bitvector_theorem_producer.h.orig 2009-10-15 19:12:03.000000000 -0600 +++ src/theory_bitvector/bitvector_theorem_producer.h 2011-09-06 11:11:29.751366334 -0600 @@ -577,7 +577,7 @@ namespace CVC3 { /** * Rewrite x/y to - * \exists s: s = x/y \wedge (y \neq 0 \implies x = y * s + m & 0 <= m < y) + * \f[\exists s: s = x/y \wedge (y \neq 0 \implies x = y * s + m \wedge 0 <= m < y)\f] */ virtual Theorem bvUDivTheorem(const Expr& divExpr); @@ -629,14 +629,14 @@ namespace CVC3 { virtual Theorem bvSModRewrite(const Expr& sModExpr); /** - * Rewrite x_1 \vee x_2 \vee \ldots \vee x_n = 0 into - * x_1 = 0 \wedge x_2 = 0 \wedge \ldots \wedge x_n = 0. + * Rewrite \f[x_1 \vee x_2 \vee \ldots \vee x_n = 0\f] into + * \f[x_1 = 0 \wedge x_2 = 0 \wedge \ldots \wedge x_n = 0\f]. */ virtual Theorem zeroBVOR(const Expr& orEqZero); /** - * Rewrite x_1 \wedge x_2 \wedge \ldots \wedge x_n = 1^n into - * x_1 = 1^n \wedge x_2 = 1^n \wedge \ldots \wedge x_n = 1^n. + * Rewrite \f[x_1 \wedge x_2 \wedge \ldots \wedge x_n = 1^n\f] into + * \f[x_1 = 1^n \wedge x_2 = 1^n \wedge \ldots \wedge x_n = 1^n\f]. */ virtual Theorem oneBVAND(const Expr& andEqOne);