/* Copyright (c) 2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include "kernel/normalizer_extension.h" namespace lean { class id_normalizer_extension : public normalizer_extension { public: virtual optional> operator()(expr const &, extension_context &) const { return optional>(); } virtual optional is_stuck(expr const &, extension_context &) const { return none_expr(); } virtual bool supports(name const &) const { return false; } }; std::unique_ptr mk_id_normalizer_extension() { return std::unique_ptr(new id_normalizer_extension()); } class comp_normalizer_extension : public normalizer_extension { std::unique_ptr m_ext1; std::unique_ptr m_ext2; public: comp_normalizer_extension(std::unique_ptr && ext1, std::unique_ptr && ext2): m_ext1(std::move(ext1)), m_ext2(std::move(ext2)) {} virtual optional> operator()(expr const & e, extension_context & ctx) const { if (auto r = (*m_ext1)(e, ctx)) return r; else return (*m_ext2)(e, ctx); } virtual optional is_stuck(expr const & e, extension_context & ctx) const { if (auto r = m_ext1->is_stuck(e, ctx)) return r; else return m_ext2->is_stuck(e, ctx); } virtual bool supports(name const & feature) const { return m_ext1->supports(feature) || m_ext2->supports(feature); } }; std::unique_ptr compose(std::unique_ptr && ext1, std::unique_ptr && ext2) { return std::unique_ptr(new comp_normalizer_extension(std::move(ext1), std::move(ext2))); } }