Mercurial > octave-nkf
view src/symtab.h @ 5102:b04b30d30c66
[project @ 2004-12-28 01:59:05 by jwe]
| author | jwe |
|---|---|
| date | Tue, 28 Dec 2004 01:59:05 +0000 |
| parents | 1eb9ce5c0152 |
| children | e35b034d3523 |
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/* Copyright (C) 1996, 1997 John W. Eaton 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 2, 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, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #if !defined (octave_symtab_h) #define octave_symtab_h 1 #if defined (__GNUG__) && defined (USE_PRAGMA_INTERFACE_IMPLEMENTATION) #pragma interface #endif #include <cassert> #include <string> #include <stack> #include "lo-sstream.h" #include "oct-alloc.h" #include "str-vec.h" #include "ov.h" class octave_lvalue; class string_vector; class symbol_record; class symbol_table; struct whos_parameter { char command; char modifier; int parameter_length; int first_parameter_length; int dimensions; int balance; std::string text; std::string line; }; // Individual records in a symbol table. class symbol_record { public: // If you add or delete an entry here, you'll also need to change // the width parameter in the declaration for symbol_type below... enum TYPE { UNKNOWN = 0, USER_FUNCTION = 1, USER_VARIABLE = 2, DLD_FUNCTION = 4, BUILTIN_FUNCTION = 8, COMMAND = 16, RAWCOMMAND = 32, MAPPER_FUNCTION = 64, BUILTIN_VARIABLE = 128, BUILTIN_CONSTANT = 256 }; private: // Variables or functions. class symbol_def { public: symbol_def (const octave_value& val = octave_value (), unsigned int sym_type = 0) : symbol_type (sym_type), eternal (0), read_only (0), help_string (), definition (val), count (1) { } ~symbol_def (void) { } bool is_constant (void) const { return (symbol_type & symbol_record::BUILTIN_CONSTANT); } bool is_variable (void) const { return (symbol_type & symbol_record::USER_VARIABLE || symbol_type & symbol_record::BUILTIN_VARIABLE); } // It's not necessary to check for COMMAND and MAPPER_FUNCTION // here. Those tags are just used as additional qualifiers for // the other types of functions. bool is_function (void) const { return (symbol_type & symbol_record::USER_FUNCTION || symbol_type & symbol_record::DLD_FUNCTION || symbol_type & symbol_record::BUILTIN_FUNCTION); } bool is_user_variable (void) const { return (symbol_type & symbol_record::USER_VARIABLE); } void mark_as_command (void) { symbol_type |= symbol_record::COMMAND; } void unmark_command (void) { symbol_type &= ~symbol_record::COMMAND; } bool is_command (void) const { return (symbol_type & symbol_record::COMMAND); } void mark_as_rawcommand (void) { symbol_type |= (symbol_record::COMMAND | symbol_record::RAWCOMMAND); } void unmark_rawcommand (void) { symbol_type &= ~symbol_record::RAWCOMMAND; } bool is_rawcommand (void) const { return (symbol_type & symbol_record::RAWCOMMAND); } bool is_mapper_function (void) const { return (symbol_type & symbol_record::MAPPER_FUNCTION); } bool is_user_function (void) const { return (symbol_type & symbol_record::USER_FUNCTION); } bool is_builtin_constant (void) const { return (symbol_type & symbol_record::BUILTIN_CONSTANT); } bool is_builtin_variable (void) const { return (symbol_type & symbol_record::BUILTIN_VARIABLE); } bool is_builtin_function (void) const { return (symbol_type & symbol_record::BUILTIN_FUNCTION); } bool is_dld_function (void) const { return (symbol_type & symbol_record::DLD_FUNCTION); } // XXX FIXME XXX bool is_map_element (const std::string& /* elts */) const { return false; } bool is_defined (void) const { return definition.is_defined (); } bool is_read_only (void) const { return read_only; } bool is_eternal (void) const { return eternal; } bool is_matrix_type (void) const { return definition.is_matrix_type (); } size_t byte_size (void) const { return definition.byte_size (); }; int numel (void) const { return definition.numel (); }; dim_vector dims (void) const { return definition.dims (); } int rows (void) const { return definition.rows (); } int columns (void) const { return definition.columns (); } std::string type_name (void) const { return definition.type_name (); } std::string type_as_string (void) const; void type (std::ostream& os, const std::string& name, bool pr_type_info, bool quiet, bool pr_orig_txt); std::string which (const std::string& name); void which (std::ostream& os, const std::string& name); void define (const octave_value& val, unsigned int sym_type) { definition = val; symbol_type = sym_type; } void protect (void) { read_only = 1; } void unprotect (void) { read_only = 0; } void make_eternal (void) { eternal = 1; } octave_value& def (void) { return definition; } std::string help (void) const { return help_string; } void document (const std::string& h) { help_string = h; } unsigned int type (void) { return symbol_type; } void *operator new (size_t size) { return allocator.alloc (size); } void operator delete (void *p, size_t size) { allocator.free (p, size); } static octave_allocator allocator; // The type of this symbol (see the enum above). unsigned int symbol_type : 9; // Nonzero means this variable cannot be cleared. unsigned int eternal : 1; // Nonzero means this variable cannot be given a new value. unsigned int read_only : 1; // The doc string associated with this variable. std::string help_string; // The value of this definition. See ov.h and related files. octave_value definition; // Reference count. int count; void print_info (std::ostream& os, const std::string& prefix = std::string ()) const; // No copying! symbol_def (const symbol_def& sd); symbol_def& operator = (const symbol_def& sd); }; public: typedef int (*change_function) (void); symbol_record (void) : formal_param (0), linked_to_global (0), tagged_static (0), can_hide_function (1), nm (), chg_fcn (0), definition (new symbol_def ()), next_elem (0) { } // XXX FIXME XXX -- kluge alert! We obviously need a better way of // handling allow_shadow! symbol_record (const std::string& n, symbol_record *nxt) : formal_param (0), linked_to_global (0), tagged_static (0), can_hide_function (n != "__end__"), nm (n), chg_fcn (0), definition (new symbol_def ()), next_elem (nxt) { } ~symbol_record (void) { if (--definition->count <= 0) delete definition; } std::string name (void) const { return nm; } std::string help (void) const { return definition->help (); } octave_value& def (void) { return definition->def (); } void rename (const std::string& new_name); bool is_function (void) const { return definition->is_function (); } void mark_as_command (void) { definition->mark_as_command (); } void unmark_command (void) { definition->unmark_command (); } bool is_command (void) const { return definition->is_command (); } void mark_as_rawcommand (void) { definition->mark_as_rawcommand (); } void unmark_rawcommand (void) { definition->unmark_rawcommand (); } bool is_rawcommand (void) const { return definition->is_rawcommand (); } bool is_mapper_function (void) const { return definition->is_mapper_function (); } bool is_user_function (void) const { return definition->is_user_function (); } bool is_builtin_function (void) const { return definition->is_builtin_function (); } bool is_dld_function (void) const { return definition->is_dld_function (); } bool is_constant (void) const { return definition->is_constant (); } bool is_builtin_constant (void) const { return definition->is_builtin_constant (); } bool is_variable (void) const { return definition->is_variable (); } bool is_user_variable (void) const { return definition->is_user_variable (); } bool is_builtin_variable (void) const { return definition->is_builtin_variable (); } bool is_map_element (const std::string& elts) const { return definition->is_map_element (elts); } unsigned int type (void) const { return definition->type (); } bool is_defined (void) const { return definition->is_defined (); } bool is_read_only (void) const { return definition->is_read_only (); } bool is_eternal (void) const { return definition->is_eternal (); } void protect (void) { definition->protect (); } void unprotect (void) { definition->unprotect (); } void make_eternal (void) { definition->make_eternal (); } void set_change_function (change_function f) { chg_fcn = f; } void define (const octave_value& v, unsigned int sym_type = USER_VARIABLE); void define_builtin_var (const octave_value& v); bool define_builtin_const (const octave_value& v); bool define (octave_function *f, unsigned int sym_type); void document (const std::string& h) { definition->document (h); } void clear (void); void alias (symbol_record *s); void mark_as_formal_parameter (void); bool is_formal_parameter (void) const { return formal_param; } void mark_as_linked_to_global (void); bool is_linked_to_global (void) const { return linked_to_global; } void mark_as_static (void); bool is_static (void) const { return tagged_static; } void unmark_static (void) { tagged_static = false; } bool is_matrix_type (void) const { return definition->is_matrix_type (); } size_t byte_size (void) const { return definition->byte_size (); }; int numel (void) const { return definition->numel (); }; dim_vector dims (void) const { return definition->dims (); } int dimensions_string_req_first_space (int print_dims) const; int dimensions_string_req_total_space (int print_dims) const; std::string make_dimensions_string (int print_dims) const; int rows (void) const { return definition->rows (); } int columns (void) const { return definition->columns (); } std::string type_name (void) const { return definition->type_name (); } std::string type_as_string (void) const { return definition->type_as_string (); } void type (std::ostream& os, bool pr_type_info, bool quiet, bool pr_orig_txt) { definition->type (os, name (), pr_type_info, quiet, pr_orig_txt); } std::string which (void) { return definition->which (name ()); } void which (std::ostream& os) { definition->which (os, name ()); } octave_value& variable_value (void); octave_lvalue variable_reference (void); symbol_record *next (void) const { return next_elem; } void chain (symbol_record *s) { next_elem = s; } void push_context (void); void pop_context (void); void print_symbol_info_line (std::ostream& os, std::list<whos_parameter>& params) const; void print_info (std::ostream& os, const std::string& prefix = std::string ()) const; private: unsigned int formal_param : 1; unsigned int linked_to_global : 1; unsigned int tagged_static : 1; unsigned int can_hide_function : 1; std::string nm; change_function chg_fcn; symbol_def *definition; symbol_record *next_elem; // This should maybe be one stack with a structure containing all the // items we need to save for recursive calls... std::stack <symbol_def *> context; std::stack <unsigned int> global_link_context; bool read_only_error (const char *action); void link_to_builtin_variable (void); // No copying! symbol_record (const symbol_record& s); symbol_record& operator = (const symbol_record& s); }; // A symbol table. #define SYMTAB_LOCAL_SCOPE 1 #define SYMTAB_GLOBAL_SCOPE 2 #define SYMTAB_ALL_SCOPES (SYMTAB_LOCAL_SCOPE | SYMTAB_GLOBAL_SCOPE) #define SYMTAB_ALL_TYPES (symbol_record::USER_FUNCTION \ | symbol_record::USER_VARIABLE \ | symbol_record::DLD_FUNCTION \ | symbol_record::BUILTIN_FUNCTION \ | symbol_record::COMMAND \ | symbol_record::RAWCOMMAND \ | symbol_record::MAPPER_FUNCTION \ | symbol_record::BUILTIN_VARIABLE \ | symbol_record::BUILTIN_CONSTANT) #define SYMTAB_VARIABLES (symbol_record::USER_VARIABLE \ | symbol_record::BUILTIN_VARIABLE) class symbol_table { public: symbol_table (unsigned int tab_size = 128, const std::string& nm = std::string ()) : table_size (tab_size), table (new symbol_record [table_size]), table_name (nm) { assert ((tab_size % 2) == 0); if (table_name.empty ()) { OSSTREAM buf; buf << symtab_count++ << OSSTREAM_ENDS; table_name = OSSTREAM_STR (buf); OSSTREAM_FREEZE (buf); } } ~symbol_table (void); symbol_record *lookup (const std::string& nm, bool insert = false, bool warn = false); void rename (const std::string& old_name, const std::string& new_name); void clear (void); void clear_variables (void); void clear_functions (void); void clear_globals (void); bool clear (const std::string& nm); bool clear_variable (const std::string& nm); bool clear_function (const std::string& nm); bool clear_global (const std::string& nm); bool clear_variable_pattern (const std::string& pat); bool clear_function_pattern (const std::string& pat); bool clear_global_pattern (const std::string& pat); int size (void) const; Array<symbol_record *> subsymbol_list (const string_vector& pats = string_vector (), unsigned int type = SYMTAB_ALL_TYPES, unsigned int scope = SYMTAB_ALL_SCOPES) const; Array<symbol_record *> symbol_list (const string_vector& pats = string_vector (), unsigned int type = SYMTAB_ALL_TYPES, unsigned int scope = SYMTAB_ALL_SCOPES) const; string_vector name_list (const string_vector& pats = string_vector (), bool sort = false, unsigned int type = SYMTAB_ALL_TYPES, unsigned int scope = SYMTAB_ALL_SCOPES) const; string_vector user_function_name_list (void) const { return name_list (string_vector (), false, symbol_record::USER_FUNCTION|symbol_record::DLD_FUNCTION, SYMTAB_ALL_SCOPES); } string_vector global_variable_name_list (void) const { return name_list (string_vector (), false, SYMTAB_VARIABLES, SYMTAB_GLOBAL_SCOPE); } string_vector variable_name_list (void) const { return name_list (string_vector (), false, SYMTAB_VARIABLES, SYMTAB_LOCAL_SCOPE); } int maybe_list (const char *header, const string_vector& argv, std::ostream& os, bool show_verbose, unsigned type, unsigned scope); Array<symbol_record *> glob (const std::string& pat = std::string ("*"), unsigned int type = SYMTAB_ALL_TYPES, unsigned int scope = SYMTAB_ALL_SCOPES) const; void push_context (void); void pop_context (void); void print_info (std::ostream& os) const; private: unsigned int table_size; symbol_record *table; std::string table_name; static unsigned long int symtab_count; void print_descriptor (std::ostream& os, std::list<whos_parameter> params) const; std::list<whos_parameter> parse_whos_line_format (Array<symbol_record *>& symbols) const; unsigned int hash (const std::string& s); // No copying! symbol_table (const symbol_table&); symbol_table& operator = (const symbol_table&); }; // Defines layout for the whos/who -long command. extern std::string Vwhos_line_format; #endif /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */