/** @file print.h * * Definition of helper classes for expression output. */ /* * GiNaC Copyright (C) 1999-2005 Johannes Gutenberg University Mainz, Germany * * 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #ifndef __GINAC_PRINT_H__ #define __GINAC_PRINT_H__ #include #include #include #include "class_info.h" namespace GiNaC { /** This class stores information about a registered print_context class. */ class print_context_options { public: print_context_options(const char *n, const char *p, unsigned i) : name(n), parent_name(p), id(i) {} const char *get_name() const { return name; } const char *get_parent_name() const { return parent_name; } unsigned get_id() const { return id; } private: const char *name; /**< Class name. */ const char *parent_name; /**< Name of superclass. */ unsigned id; /**< ID number (assigned automatically). */ }; typedef class_info print_context_class_info; /** Flags to control the behavior of a print_context. */ class print_options { public: enum { print_index_dimensions = 0x0001 ///< print the dimensions of indices }; }; /** Macro for inclusion in the declaration of a print_context class. * It declares some functions that are common to all classes derived * from 'print_context' as well as all required stuff for the GiNaC * registry. */ #define GINAC_DECLARE_PRINT_CONTEXT(classname, supername) \ public: \ typedef supername inherited; \ friend class function_options; \ friend class registered_class_options; \ public: \ static const GiNaC::print_context_class_info &get_class_info_static(); \ virtual const GiNaC::print_context_class_info &get_class_info() const { return classname::get_class_info_static(); } \ virtual const char *class_name() const { return classname::get_class_info_static().options.get_name(); } \ \ classname(); \ virtual classname * duplicate() const { return new classname(*this); } \ private: /** Macro for inclusion in the implementation of each print_context class. */ #define GINAC_IMPLEMENT_PRINT_CONTEXT(classname, supername) \ const GiNaC::print_context_class_info &classname::get_class_info_static() \ { \ static GiNaC::print_context_class_info reg_info = GiNaC::print_context_class_info(GiNaC::print_context_options(#classname, #supername, GiNaC::next_print_context_id++)); \ return reg_info; \ } extern unsigned next_print_context_id; /** Base class for print_contexts. */ class print_context { GINAC_DECLARE_PRINT_CONTEXT(print_context, void) public: print_context(std::ostream &, unsigned options = 0); virtual ~print_context() {} std::ostream & s; /**< stream to output to */ unsigned options; /**< option flags */ }; /** Context for default (ginsh-parsable) output. */ class print_dflt : public print_context { GINAC_DECLARE_PRINT_CONTEXT(print_dflt, print_context) public: print_dflt(std::ostream &, unsigned options = 0); }; /** Context for latex-parsable output. */ class print_latex : public print_context { GINAC_DECLARE_PRINT_CONTEXT(print_latex, print_context) public: print_latex(std::ostream &, unsigned options = 0); }; /** Context for python pretty-print output. */ class print_python : public print_context { GINAC_DECLARE_PRINT_CONTEXT(print_python, print_context) public: print_python(std::ostream &, unsigned options = 0); }; /** Context for python-parsable output. */ class print_python_repr : public print_context { GINAC_DECLARE_PRINT_CONTEXT(print_python_repr, print_context) public: print_python_repr(std::ostream &, unsigned options = 0); }; /** Context for tree-like output for debugging. */ class print_tree : public print_context { GINAC_DECLARE_PRINT_CONTEXT(print_tree, print_context) public: print_tree(unsigned d); print_tree(std::ostream &, unsigned options = 0, unsigned d = 4); const unsigned delta_indent; /**< size of indentation step */ }; /** Base context for C source output. */ class print_csrc : public print_context { GINAC_DECLARE_PRINT_CONTEXT(print_csrc, print_context) public: print_csrc(std::ostream &, unsigned options = 0); }; /** Context for C source output using float precision. */ class print_csrc_float : public print_csrc { GINAC_DECLARE_PRINT_CONTEXT(print_csrc_float, print_csrc) public: print_csrc_float(std::ostream &, unsigned options = 0); }; /** Context for C source output using double precision. */ class print_csrc_double : public print_csrc { GINAC_DECLARE_PRINT_CONTEXT(print_csrc_double, print_csrc) public: print_csrc_double(std::ostream &, unsigned options = 0); }; /** Context for C source output using CLN numbers. */ class print_csrc_cl_N : public print_csrc { GINAC_DECLARE_PRINT_CONTEXT(print_csrc_cl_N, print_csrc) public: print_csrc_cl_N(std::ostream &, unsigned options = 0); }; /** Check if obj is a T, including base classes. */ template inline bool is_a(const print_context & obj) { return dynamic_cast(&obj) != 0; } class basic; /** Base class for print_functor handlers */ class print_functor_impl { public: virtual ~print_functor_impl() {} virtual print_functor_impl *duplicate() const = 0; virtual void operator()(const basic & obj, const print_context & c, unsigned level) const = 0; }; /** print_functor handler for pointer-to-functions of class T, context type C */ template class print_ptrfun_handler : public print_functor_impl { public: typedef void (*F)(const T &, const C &, unsigned); print_ptrfun_handler(F f_) : f(f_) {} print_ptrfun_handler *duplicate() const { return new print_ptrfun_handler(*this); } void operator()(const basic & obj, const print_context & c, unsigned level) const { // Call the supplied function f(dynamic_cast(obj), dynamic_cast(c), level); } private: F f; }; /** print_functor handler for member functions of class T, context type C */ template class print_memfun_handler : public print_functor_impl { public: typedef void (T::*F)(const C & c, unsigned level) const; print_memfun_handler(F f_) : f(f_) {} print_memfun_handler *duplicate() const { return new print_memfun_handler(*this); } void operator()(const basic & obj, const print_context & c, unsigned level) const { // Call the supplied member function return (dynamic_cast(obj).*f)(dynamic_cast(c), level); } private: F f; }; /** This class represents a print method for a certain algebraic class and * print_context type. Its main purpose is to hide the difference between * member functions and nonmember functions behind one unified operator() * interface. print_functor has value semantics and acts as a smart pointer * (with deep copy) to a class derived from print_functor_impl which * implements the actual function call. */ class print_functor { public: print_functor() : impl(0) {} print_functor(const print_functor & other) : impl(other.impl.get() ? other.impl->duplicate() : 0) {} print_functor(std::auto_ptr impl_) : impl(impl_) {} template print_functor(void f(const T &, const C &, unsigned)) : impl(new print_ptrfun_handler(f)) {} template print_functor(void (T::*f)(const C &, unsigned) const) : impl(new print_memfun_handler(f)) {} print_functor & operator=(const print_functor & other) { if (this != &other) { print_functor_impl *p = other.impl.get(); impl.reset(p ? other.impl->duplicate() : 0); } return *this; } void operator()(const basic & obj, const print_context & c, unsigned level) const { (*impl)(obj, c, level); } bool is_valid() const { return impl.get(); } private: std::auto_ptr impl; }; } // namespace GiNaC #endif // ndef __GINAC_BASIC_H__