// --------------------------------------------------------------------------- // - Predtxt.cpp - // - afnix:txt module - predicates implementation - // --------------------------------------------------------------------------- // - This program is free software; you can redistribute it and/or modify - // - it provided that this copyright notice is kept intact. - // - - // - This program is distributed in the hope that it will be useful, but - // - without any warranty; without even the implied warranty of - // - merchantability or fitness for a particular purpose. In no event shall - // - the copyright holder be liable for any direct, indirect, incidental or - // - special damages arising in any way out of the use of this software. - // --------------------------------------------------------------------------- // - copyright (c) 1999-2007 amaury darsch - // --------------------------------------------------------------------------- #include "Aes.hpp" #include "Md5.hpp" #include "Sha1.hpp" #include "Cons.hpp" #include "Trie.hpp" #include "Worder.hpp" #include "Sha256.hpp" #include "Sha384.hpp" #include "Sha512.hpp" #include "Hasher.hpp" #include "Predtxt.hpp" #include "Scanner.hpp" #include "Boolean.hpp" #include "Lexicon.hpp" #include "Literate.hpp" #include "Exception.hpp" #include "InputCipher.hpp" namespace afnix { // this procedure checks that we have one argument only and returns // the evaluated object static inline Object* get_obj (Runnable* robj, Nameset* nset, Cons* args, const String& pname) { Object* car = nilp; if ((args == nilp) || (args->length () != 1)) throw Exception ("argument-error", "illegal arguments with predicate", pname); car = args->getcar (); return (car == nilp) ? nilp : car->eval (robj,nset); } // patp: pattern object predicate Object* txt_patp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "pattern-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // lexp: lexeme object predicate Object* txt_lexp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "lexeme-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // tlitp: (trans)literate object predicate Object* txt_tlitp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "literate-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // scanp: scanner object predicate Object* txt_scanp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "scanner-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // triep: trie object predicate Object* txt_triep (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "trie-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // tlexp: lexicon object predicate Object* txt_tlexp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "lexicon-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // wordp: worder object predicate Object* txt_wordp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "worder-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // hashp: hasher object predicate Object* txt_hashp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "digest-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // keyp: key object predicate Object* txt_keyp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "key-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // md5p: MD-5 object predicate Object* txt_md5p (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "md5-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // sha1p: SHA-1 object predicate Object* txt_sha1p (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "sha1-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // sha256p: SHA-256 object predicate Object* txt_sha256p (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "sha256-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // sha384p: SHA-384 object predicate Object* txt_sha384p (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "sha384-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // sha512p: SHA-512 object predicate Object* txt_sha512p (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "sha512-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // aesp: aes object predicate Object* txt_aesp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "aes-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // cifrp: cipher object predicate Object* txt_cifrp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "cipher-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } // icfrp: input cipher object predicate Object* txt_icfrp (Runnable* robj, Nameset* nset, Cons* args) { Object* obj = get_obj (robj, nset, args, "input-cipher-p"); bool result = (dynamic_cast (obj) == nilp) ? false : true; Object::cref (obj); return new Boolean (result); } }