//---------------------------------------------------------------------------// // Copyright (c) 2013 Kyle Lutz // // Distributed under the Boost Software License, Version 1.0 // See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt // // See http://boostorg.github.com/compute for more information. //---------------------------------------------------------------------------// #ifndef BOOST_COMPUTE_FUNCTION_HPP #define BOOST_COMPUTE_FUNCTION_HPP #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace compute { namespace detail { template class invoked_function { public: typedef ResultType result_type; BOOST_STATIC_CONSTANT( size_t, arity = boost::tuples::length::value ); invoked_function(const std::string &name, const std::string &source) : m_name(name), m_source(source) { } invoked_function(const std::string &name, const std::string &source, const std::map &definitions) : m_name(name), m_source(source), m_definitions(definitions) { } invoked_function(const std::string &name, const std::string &source, const ArgTuple &args) : m_name(name), m_source(source), m_args(args) { } invoked_function(const std::string &name, const std::string &source, const std::map &definitions, const ArgTuple &args) : m_name(name), m_source(source), m_definitions(definitions), m_args(args) { } std::string name() const { return m_name; } std::string source() const { return m_source; } const std::map& definitions() const { return m_definitions; } const ArgTuple& args() const { return m_args; } private: std::string m_name; std::string m_source; std::map m_definitions; ArgTuple m_args; }; } // end detail namespace /// \class function /// \brief A function object. template class function { public: /// \internal_ typedef typename boost::function_traits::result_type result_type; /// \internal_ BOOST_STATIC_CONSTANT( size_t, arity = boost::function_traits::arity ); /// \internal_ typedef Signature signature; /// Creates a new function object with \p name. function(const std::string &name) : m_name(name) { } /// Destroys the function object. ~function() { } /// \internal_ std::string name() const { return m_name; } /// \internal_ void set_source(const std::string &source) { m_source = source; } /// \internal_ std::string source() const { return m_source; } /// \internal_ void define(std::string name, std::string value = std::string()) { m_definitions[name] = value; } /// \internal_ detail::invoked_function > operator()() const { BOOST_STATIC_ASSERT_MSG( arity == 0, "Non-nullary function invoked with zero arguments" ); return detail::invoked_function >( m_name, m_source, m_definitions ); } /// \internal_ template detail::invoked_function > operator()(const Arg1 &arg1) const { BOOST_STATIC_ASSERT_MSG( arity == 1, "Non-unary function invoked one argument" ); return detail::invoked_function >( m_name, m_source, m_definitions, boost::make_tuple(arg1) ); } /// \internal_ template detail::invoked_function > operator()(const Arg1 &arg1, const Arg2 &arg2) const { BOOST_STATIC_ASSERT_MSG( arity == 2, "Non-binary function invoked with two arguments" ); return detail::invoked_function >( m_name, m_source, m_definitions, boost::make_tuple(arg1, arg2) ); } /// \internal_ template detail::invoked_function > operator()(const Arg1 &arg1, const Arg2 &arg2, const Arg3 &arg3) const { BOOST_STATIC_ASSERT_MSG( arity == 3, "Non-ternary function invoked with three arguments" ); return detail::invoked_function >( m_name, m_source, m_definitions, boost::make_tuple(arg1, arg2, arg3) ); } private: std::string m_name; std::string m_source; std::map m_definitions; }; /// Creates a function object given its \p name and \p source. /// /// \param name The function name. /// \param source The function source code. /// /// \see BOOST_COMPUTE_FUNCTION() template inline function make_function_from_source(const std::string &name, const std::string &source) { function f(name); f.set_source(source); return f; } namespace detail { // given a string containing the arguments declaration for a function // like: "(int a, const float b)", returns a vector containing the name // of each argument (e.g. ["a", "b"]). inline std::vector parse_argument_names(const char *arguments) { BOOST_ASSERT_MSG( arguments[0] == '(' && arguments[std::strlen(arguments)-1] == ')', "Arguments should start and end with parentheses" ); std::vector args; size_t last_space = 0; size_t skip_comma = 0; for(size_t i = 1; i < std::strlen(arguments) - 2; i++){ const char c = arguments[i]; if(c == ' '){ last_space = i; } else if(c == ',' && !skip_comma){ std::string name( arguments + last_space + 1, i - last_space - 1 ); args.push_back(name); } else if(c == '<'){ skip_comma++; } else if(c == '>'){ skip_comma--; } } std::string last_argument( arguments + last_space + 1, std::strlen(arguments) - last_space - 2 ); args.push_back(last_argument); return args; } struct signature_argument_inserter { signature_argument_inserter(std::stringstream &s_, const char *arguments, size_t last) : s(s_) { n = 0; m_last = last; m_argument_names = parse_argument_names(arguments); BOOST_ASSERT_MSG( m_argument_names.size() == last, "Wrong number of arguments" ); } template void operator()(const T*) { s << type_name() << " " << m_argument_names[n]; if(n+1 < m_last){ s << ", "; } n++; } size_t n; size_t m_last; std::stringstream &s; std::vector m_argument_names; }; template inline std::string make_function_declaration(const char *name, const char *arguments) { typedef typename boost::function_traits::result_type result_type; typedef typename boost::function_types::parameter_types::type parameter_types; typedef typename mpl::size::type arity_type; std::stringstream s; s << "inline " << type_name() << " " << name; s << "("; if(arity_type::value > 0){ signature_argument_inserter i(s, arguments, arity_type::value); mpl::for_each< typename mpl::transform >::type>(i); } s << ")"; return s.str(); } struct argument_list_inserter { argument_list_inserter(std::stringstream &s_, const char first, size_t last) : s(s_) { n = 0; m_last = last; m_name = first; } template void operator()(const T*) { s << type_name() << " " << m_name++; if(n+1 < m_last){ s << ", "; } n++; } size_t n; size_t m_last; char m_name; std::stringstream &s; }; template inline std::string generate_argument_list(const char first = 'a') { typedef typename boost::function_types::parameter_types::type parameter_types; typedef typename mpl::size::type arity_type; std::stringstream s; s << '('; if(arity_type::value > 0){ argument_list_inserter i(s, first, arity_type::value); mpl::for_each< typename mpl::transform >::type>(i); } s << ')'; return s.str(); } // used by the BOOST_COMPUTE_FUNCTION() macro to create a function // with the given signature, name, arguments, and source. template inline function make_function_impl(const char *name, const char *arguments, const char *source) { std::stringstream s; s << make_function_declaration(name, arguments); s << source; return make_function_from_source(name, s.str()); } } // end detail namespace } // end compute namespace } // end boost namespace /// Creates a function object with \p name and \p source. /// /// \param return_type The return type for the function. /// \param name The name of the function. /// \param arguments A list of arguments for the function. /// \param source The OpenCL C source code for the function. /// /// The function declaration and signature are automatically created using /// the \p return_type, \p name, and \p arguments macro parameters. /// /// The source code for the function is interpreted as OpenCL C99 source code /// which is stringified and passed to the OpenCL compiler when the function /// is invoked. /// /// For example, to create a function which squares a number: /// \code /// BOOST_COMPUTE_FUNCTION(float, square, (float x), /// { /// return x * x; /// }); /// \endcode /// /// And to create a function which sums two numbers: /// \code /// BOOST_COMPUTE_FUNCTION(int, sum_two, (int x, int y), /// { /// return x + y; /// }); /// \endcode /// /// \see BOOST_COMPUTE_CLOSURE() #ifdef BOOST_COMPUTE_DOXYGEN_INVOKED #define BOOST_COMPUTE_FUNCTION(return_type, name, arguments, source) #else #define BOOST_COMPUTE_FUNCTION(return_type, name, arguments, ...) \ ::boost::compute::function name = \ ::boost::compute::detail::make_function_impl( \ #name, #arguments, #__VA_ARGS__ \ ) #endif #endif // BOOST_COMPUTE_FUNCTION_HPP