/* TEST-HELPER.hpp - collection of functions supporting unit testing Copyright (C) Lumiera.org 2009, Hermann Vosseler This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. 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. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef LIB_TEST_EVENT_LOG_H #define LIB_TEST_EVENT_LOG_H #include "lib/symbol.hpp" #include "lib/time/timevalue.hpp" #include #include #include #include namespace lib { namespace test{ using lib::Literal; using std::string; using std::rand; /** get a sensible display for a type or object * @param obj object of the type in question * @param name optional name to be used literally * @return either the literal name without any further magic, * or the result of compile-time or run time * type identification as implemented by the compiler. */ template inline Literal showType (T const& obj, Literal name=0) { return name? name : Literal(typeid(obj).name()); } /** get a sensible display for a type * @param name optional name to be used literally * @return either the literal name without any further magic, * or the result of compile-time or run time * type identification as implemented by the compiler. */ template inline Literal showType (Literal name=0) { return name? name : Literal(typeid(T).name()); } /** reverse the effect of C++ name mangling. * @return string in language-level form of a C++ type or object name, * or a string with the original input if demangling fails. * @warning implementation relies on the cross vendor C++ ABI in use * by GCC and compatible compilers, so portability is limited. * The implementation is accessed through libStdC++ * Name representation in emitted object code and type IDs is * essentially an implementation detail and subject to change. */ string demangleCxx (Literal rawName); /** short yet distinct name identifying the given type. * @return demangled type-id without any scopes. */ template string tyAbbr() { string typeStr = demangleCxx (showType()); size_t pos = typeStr.rfind("::"); if (pos != string::npos) typeStr = typeStr.substr(pos+2); return typeStr; } template string tyAbbr(TY&&) { return tyAbbr(); } /** for printing sizeof(). * prints the given size and name literally, without any further magic */ string showSizeof (size_t siz, const char* name); /** for printing sizeof(), trying to figure out the type name automatically */ template inline string showSizeof(const char* name=0) { return showSizeof (sizeof (T), showType (name)); } template inline string showSizeof(T const& obj, const char* name=0) { return showSizeof (sizeof (obj), showType (obj,name)); } template inline string showSizeof(T *obj, const char* name=0) { return obj? showSizeof (*obj, name) : showSizeof (name); } /** helper to discern the kind of reference of the argument type */ template string showRefKind() { return std::is_lvalue_reference::value? "REF" : std::is_rvalue_reference::value? "MOV" : "VAL"; } /** helper for investigating a variadic argument pack * @warning always spell out the template arguments explicitly * when invoking this diagnostics, e.g. \c showVariadicTypes(args...) * otherwise the template argument matching for functions might mess up the * kind of reference you'll see in the diagnostics. * @see test-helper-variadic-test.cpp */ template inline string showVariadicTypes () { return " :."; } template inline string showVariadicTypes (X const& x, XS const&... xs) { return " :---#" + boost::lexical_cast(1 + sizeof...(xs)) + " -- Type: " + showType() + " " + showRefKind() + " Address* " + boost::lexical_cast(&x) + "\n" + showVariadicTypes (xs...); } /** create a random but not insane Time value */ inline lib::time::Time randTime () { return lib::time::Time (500 * (rand() % 2), (rand() % 600) + 1); } /** create garbage string of given length * @return string containing arbitrary lower case letters and numbers */ string randStr (size_t len); }} // namespace lib::test /* === test helper macros === */ /** * Macro to verify a statement indeed raises an exception. * If no exception is thrown, the #NOTREACHED macro will trigger * an assertion failure. In case of an exception, the #lumiera_error * state is checked, cleared and verified. */ #define VERIFY_ERROR(ERROR_ID, ERRONEOUS_STATEMENT) \ try \ { \ ERRONEOUS_STATEMENT ; \ NOTREACHED("expected '%s' failure in: %s", \ #ERROR_ID, #ERRONEOUS_STATEMENT); \ } \ catch (...) \ { \ CHECK (lumiera_error_expect (LUMIERA_ERROR_##ERROR_ID));\ } #endif