Mercurial > hg > octave-jordi
view libinterp/corefcn/txt-eng.h @ 20917:6f0bd96f93c0
maint: Use new C++ archetype in more files.
Place input validation first in files.
Move declaration of retval down in function to be closer to point of usage.
Eliminate else clause after if () error.
Use "return ovl()" where it makes sense.
* __dispatch__.cc, __dsearchn__.cc, __ichol__.cc, __lin_interpn__.cc,
balance.cc, betainc.cc, bitfcns.cc, bsxfun.cc, cellfun.cc, colloc.cc, conv2.cc,
daspk.cc, dasrt.cc, dassl.cc, data.cc, debug.cc, dirfns.cc, dlmread.cc, dot.cc,
eig.cc, error.cc, fft.cc, fft2.cc, fftn.cc, file-io.cc, ov-type-conv.h:
Use new C++ archetype in more files.
| author | Rik <rik@octave.org> |
|---|---|
| date | Wed, 16 Dec 2015 15:00:31 -0800 |
| parents | 4197fc428c7d |
| children |
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/* Copyright (C) 2009-2015 Michael Goffioul This file is part of Octave. Octave 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 3 of the License, or (at your option) any later version. Octave 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 Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #if ! defined (txt_eng_h) #define txt_eng_h 1 #include <memory> #include <string> #include "base-list.h" #include "caseless-str.h" #include "dMatrix.h" class text_element; class text_element_string; class text_element_symbol; class text_element_list; class text_element_subscript; class text_element_superscript; class text_element_combined; class text_element_fontname; class text_element_fontsize; class text_element_fontstyle; class text_element_color; class text_processor; class OCTINTERP_API text_element { public: text_element (void) { } virtual ~text_element (void) { } virtual void accept (text_processor& p) = 0; private: text_element (const text_element&); }; class OCTINTERP_API text_element_string : public text_element { public: text_element_string (const std::string& s = "") : text_element (), str (s) { } ~text_element_string (void) { } std::string string_value (void) const { return str; } void accept (text_processor& p); private: std::string str; private: text_element_string (const text_element_string &); }; class OCTINTERP_API text_element_symbol : public text_element { public: enum { invalid_code = 0xFFFFFFFFU }; public: text_element_symbol (int sym) : text_element (), symbol (sym) { } ~text_element_symbol (void) { } int get_symbol (void) const { return symbol; } uint32_t get_symbol_code (void) const; void accept (text_processor& p); private: int symbol; }; class OCTINTERP_API text_element_list : public text_element, public octave_base_list<text_element *> { public: text_element_list (void) : text_element (), octave_base_list<text_element*> () { } text_element_list (text_element* e) : text_element (), octave_base_list<text_element*> () { push_back (e); } ~text_element_list (void) { while (! empty ()) { iterator it = begin (); delete (*it); erase (it); } } void accept (text_processor& p); }; class OCTINTERP_API text_element_subscript : public text_element { public: text_element_subscript (text_element* e) : text_element (), elem (e) { } text_element_subscript (char c) : text_element () { elem = new text_element_string (std::string (1, c)); } ~text_element_subscript (void) { delete elem; } void accept (text_processor& p); text_element* get_element (void) { return elem; } private: text_element* elem; private: text_element_subscript (void); }; class OCTINTERP_API text_element_superscript : public text_element { public: text_element_superscript (text_element* e) : text_element (), elem (e) { } text_element_superscript (char c) : text_element () { elem = new text_element_string (std::string (1, c)); } ~text_element_superscript (void) { delete elem; } void accept (text_processor& p); text_element* get_element (void) { return elem; } private: text_element* elem; private: text_element_superscript (void); }; class OCTINTERP_API text_element_combined : public text_element_list { public: text_element_combined (text_element* e) : text_element_list (e) { } text_element_combined (text_element* e1, text_element* e2) : text_element_list(e1) { push_back (e2); } void accept (text_processor& p); }; class OCTINTERP_API text_element_fontstyle : public text_element { public: enum fontstyle { normal, bold, italic, oblique }; text_element_fontstyle (fontstyle st) : text_element (), style (st) { } ~text_element_fontstyle (void) { } fontstyle get_fontstyle (void) const { return style; } void accept (text_processor& p); private: fontstyle style; private: text_element_fontstyle (void); }; class OCTINTERP_API text_element_fontname : public text_element { public: text_element_fontname (const std::string& fname) : text_element (), name (fname) { } ~text_element_fontname (void) { } const std::string& get_fontname (void) const { return name; } void accept (text_processor& p); private: std::string name; private: text_element_fontname (void); }; class OCTINTERP_API text_element_fontsize : public text_element { public: text_element_fontsize (double fsize) : text_element (), size (fsize) { } ~text_element_fontsize (void) { } double get_fontsize (void) const { return size; } void accept (text_processor& p); private: double size; private: text_element_fontsize (void); }; class OCTINTERP_API text_element_color : public text_element { public: text_element_color (double r, double g, double b) : text_element (), rgb (1, 3, 0.0) { rgb(0) = r; rgb(1) = g; rgb(2) = b; } text_element_color (const std::string& cname) : text_element (), rgb (1, 3, 0.0) { #define ASSIGN_COLOR(r,g,b) { rgb(0) = r; rgb(1) = g; rgb(2) = b; } if (cname == "red") ASSIGN_COLOR(1, 0, 0) else if (cname == "green") ASSIGN_COLOR(0, 1, 0) else if (cname == "yellow") ASSIGN_COLOR(1, 1, 0) else if (cname == "magenta") ASSIGN_COLOR(1, 0, 1) else if (cname == "blue") ASSIGN_COLOR(0, 0, 1) else if (cname == "black") ASSIGN_COLOR(0, 0, 0) else if (cname == "white") ASSIGN_COLOR(1, 1, 1) else if (cname == "gray") ASSIGN_COLOR(.5, .5, .5) else if (cname == "darkGreen") ASSIGN_COLOR(0, .5, 0) else if (cname == "orange") ASSIGN_COLOR(1, .65, 0) else if (cname == "lightBlue") ASSIGN_COLOR(0.68, .85, .9) #undef ASSIGN_COLOR } ~text_element_color (void) { } Matrix get_color (void) { return rgb; } void accept (text_processor& p); private: Matrix rgb; }; class OCTINTERP_API text_processor { public: virtual void visit (text_element_string& e) = 0; virtual void visit (text_element_symbol&) { } virtual void visit (text_element_list& e) { for (text_element_list::iterator it = e.begin (); it != e.end (); ++it) { (*it)->accept (*this); } } virtual void visit (text_element_subscript& e) { e.get_element ()->accept (*this); } virtual void visit (text_element_superscript& e) { e.get_element ()->accept (*this); } virtual void visit (text_element_combined&) { } virtual void visit (text_element_fontstyle&) { } virtual void visit (text_element_fontname&) { } virtual void visit (text_element_fontsize&) { } virtual void visit (text_element_color&) { } virtual void reset (void) { } protected: text_processor (void) { } virtual ~text_processor (void) { } }; #define TEXT_ELEMENT_ACCEPT(cls) \ inline void \ cls::accept (text_processor& p) \ { p.visit (*this); } TEXT_ELEMENT_ACCEPT(text_element_string) TEXT_ELEMENT_ACCEPT(text_element_symbol) TEXT_ELEMENT_ACCEPT(text_element_list) TEXT_ELEMENT_ACCEPT(text_element_subscript) TEXT_ELEMENT_ACCEPT(text_element_superscript) TEXT_ELEMENT_ACCEPT(text_element_combined) TEXT_ELEMENT_ACCEPT(text_element_fontstyle) TEXT_ELEMENT_ACCEPT(text_element_fontname) TEXT_ELEMENT_ACCEPT(text_element_fontsize) TEXT_ELEMENT_ACCEPT(text_element_color) class OCTINTERP_API text_parser { public: text_parser (void) { } virtual ~text_parser (void) { } virtual text_element* parse (const std::string& s) = 0; public: static text_element* parse (const std::string& s, const caseless_str& interpreter); }; class OCTINTERP_API text_parser_none : public text_parser { public: text_parser_none (void) : text_parser () { } ~text_parser_none (void) { } // FIXME: is it possible to use reference counting to manage the // memory for the object returned by the text parser? That would be // preferable to having to know when and where to delete the object it // creates... text_element* parse (const std::string& s) { return new text_element_string (s); } }; class OCTINTERP_API text_parser_tex : public text_parser { public: text_parser_tex (void) : text_parser (), scanner (0), buffer_state (0), result (0) { } ~text_parser_tex (void) { destroy_lexer (); } text_element* parse (const std::string& s); void* get_scanner (void) { return scanner; } void set_parse_result (text_element* e) { result = e; } text_element* get_parse_result (void) { return result; } private: bool init_lexer (const std::string& s); void destroy_lexer (void); private: void* scanner; void* buffer_state; text_element* result; }; inline text_element* text_parser::parse (const std::string& s, const caseless_str& interpreter) { std::auto_ptr<text_parser> parser; if (interpreter.compare ("tex")) parser.reset (new text_parser_tex ()); else parser.reset (new text_parser_none ()); return parser->parse (s); } #endif