/usr/include/octave-3.8.1/octave/parse.h is in liboctave-dev 3.8.1-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (C) 1993-2013 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 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 (octave_parse_h)
#define octave_parse_h 1
#include <cstdio>
#include <string>
#include <stack>
#include <vector>
#include <map>
#include "lex.h"
#include "symtab.h"
#include "token.h"
class octave_comment_list;
class octave_function;
class octave_user_function;
class tree;
class tree_anon_fcn_handle;
class tree_argument_list;
class tree_array_list;
class tree_cell;
class tree_colon_expression;
class tree_command;
class tree_constant;
class tree_decl_command;
class tree_decl_init_list;
class tree_expression;
class tree_fcn_handle;
class tree_function_def;
class tree_identifier;
class tree_if_clause;
class tree_if_command;
class tree_if_command_list;
class tree_index_expression;
class tree_matrix;
class tree_matrix;
class tree_parameter_list;
class tree_statement;
class tree_statement_list;
class tree_statement_listtree_statement;
class tree_switch_case;
class tree_switch_case_list;
class tree_switch_command;
#include "oct-obj.h"
// Nonzero means print parser debugging info (-d).
extern int octave_debug;
// TRUE means we printed messages about reading startup files.
extern bool reading_startup_message_printed;
extern OCTINTERP_API std::string
get_help_from_file (const std::string& nm, bool& symbol_found,
std::string& file);
extern OCTINTERP_API std::string
get_help_from_file (const std::string& nm, bool& symbol_found);
extern OCTINTERP_API std::string lookup_autoload (const std::string& nm);
extern OCTINTERP_API string_vector autoloaded_functions (void);
extern OCTINTERP_API string_vector
reverse_lookup_autoload (const std::string& nm);
extern OCTINTERP_API octave_function *
load_fcn_from_file (const std::string& file_name,
const std::string& dir_name = std::string (),
const std::string& dispatch_type = std::string (),
const std::string& fcn_name = std::string (),
bool autoload = false);
extern OCTINTERP_API void
source_file (const std::string& file_name,
const std::string& context = std::string (),
bool verbose = false, bool require_file = true,
const std::string& warn_for = std::string ());
extern OCTINTERP_API octave_value_list
feval (const std::string& name,
const octave_value_list& args = octave_value_list (),
int nargout = 0);
extern OCTINTERP_API octave_value_list
feval (octave_function *fcn,
const octave_value_list& args = octave_value_list (),
int nargout = 0);
extern OCTINTERP_API octave_value_list
feval (const octave_value_list& args, int nargout = 0);
extern OCTINTERP_API octave_value_list
eval_string (const std::string&, bool silent, int& parse_status, int hargout);
extern OCTINTERP_API octave_value
eval_string (const std::string&, bool silent, int& parse_status);
extern OCTINTERP_API void cleanup_statement_list (tree_statement_list **lst);
// Global access to currently active lexer.
// FIXME: to be removed after more parser+lexer refactoring.
extern octave_base_lexer *LEXER;
class
octave_base_parser
{
public:
octave_base_parser (octave_base_lexer& lxr)
: endfunction_found (false),
autoloading (false), fcn_file_from_relative_lookup (false),
parsing_subfunctions (false), max_fcn_depth (0),
curr_fcn_depth (0), primary_fcn_scope (-1),
curr_class_name (), function_scopes (), primary_fcn_ptr (0),
subfunction_names (), stmt_list (0),
lexer (lxr)
{ }
~octave_base_parser (void);
void reset (void);
// Error mesages for mismatched end tokens.
void end_error (const char *type, token::end_tok_type ettype, int l, int c);
// Check to see that end tokens are properly matched.
bool end_token_ok (token *tok, token::end_tok_type expected);
// Maybe print a warning if an assignment expression is used as the
// test in a logical expression.
void maybe_warn_assign_as_truth_value (tree_expression *expr);
// Maybe print a warning about switch labels that aren't constants.
void maybe_warn_variable_switch_label (tree_expression *expr);
// Finish building a range.
tree_expression *finish_colon_expression (tree_colon_expression *e);
// Build a constant.
tree_constant *make_constant (int op, token *tok_val);
// Build a function handle.
tree_fcn_handle *make_fcn_handle (token *tok_val);
// Build an anonymous function handle.
tree_anon_fcn_handle *
make_anon_fcn_handle (tree_parameter_list *param_list, tree_statement *stmt);
// Build a binary expression.
tree_expression *
make_binary_op (int op, tree_expression *op1, token *tok_val,
tree_expression *op2);
// Build a boolean expression.
tree_expression *
make_boolean_op (int op, tree_expression *op1, token *tok_val,
tree_expression *op2);
// Build a prefix expression.
tree_expression *
make_prefix_op (int op, tree_expression *op1, token *tok_val);
// Build a postfix expression.
tree_expression *
make_postfix_op (int op, tree_expression *op1, token *tok_val);
// Build an unwind-protect command.
tree_command *
make_unwind_command (token *unwind_tok, tree_statement_list *body,
tree_statement_list *cleanup, token *end_tok,
octave_comment_list *lc, octave_comment_list *mc);
// Build a try-catch command.
tree_command *
make_try_command (token *try_tok, tree_statement_list *body,
char catch_sep, tree_statement_list *cleanup,
token *end_tok, octave_comment_list *lc,
octave_comment_list *mc);
// Build a while command.
tree_command *
make_while_command (token *while_tok, tree_expression *expr,
tree_statement_list *body, token *end_tok,
octave_comment_list *lc);
// Build a do-until command.
tree_command *
make_do_until_command (token *until_tok, tree_statement_list *body,
tree_expression *expr, octave_comment_list *lc);
// Build a for command.
tree_command *
make_for_command (int tok_id, token *for_tok, tree_argument_list *lhs,
tree_expression *expr, tree_expression *maxproc,
tree_statement_list *body, token *end_tok,
octave_comment_list *lc);
// Build a break command.
tree_command *make_break_command (token *break_tok);
// Build a continue command.
tree_command *make_continue_command (token *continue_tok);
// Build a return command.
tree_command *make_return_command (token *return_tok);
// Start an if command.
tree_if_command_list *
start_if_command (tree_expression *expr, tree_statement_list *list);
// Finish an if command.
tree_if_command *
finish_if_command (token *if_tok, tree_if_command_list *list,
token *end_tok, octave_comment_list *lc);
// Build an elseif clause.
tree_if_clause *
make_elseif_clause (token *elseif_tok, tree_expression *expr,
tree_statement_list *list, octave_comment_list *lc);
// Finish a switch command.
tree_switch_command *
finish_switch_command (token *switch_tok, tree_expression *expr,
tree_switch_case_list *list, token *end_tok,
octave_comment_list *lc);
// Build a switch case.
tree_switch_case *
make_switch_case (token *case_tok, tree_expression *expr,
tree_statement_list *list, octave_comment_list *lc);
// Build an assignment to a variable.
tree_expression *
make_assign_op (int op, tree_argument_list *lhs, token *eq_tok,
tree_expression *rhs);
// Define a script.
void make_script (tree_statement_list *cmds, tree_statement *end_script);
// Begin defining a function.
octave_user_function *
start_function (tree_parameter_list *param_list, tree_statement_list *body,
tree_statement *end_function);
// Create a no-op statement for end_function.
tree_statement *make_end (const std::string& type, bool eof, int l, int c);
// Do most of the work for defining a function.
octave_user_function *
frob_function (const std::string& fname, octave_user_function *fcn);
// Finish defining a function.
tree_function_def *
finish_function (tree_parameter_list *ret_list,
octave_user_function *fcn, octave_comment_list *lc,
int l, int c);
// Reset state after parsing function.
void
recover_from_parsing_function (void);
// Make an index expression.
tree_index_expression *
make_index_expression (tree_expression *expr,
tree_argument_list *args, char type);
// Make an indirect reference expression.
tree_index_expression *
make_indirect_ref (tree_expression *expr, const std::string&);
// Make an indirect reference expression with dynamic field name.
tree_index_expression *
make_indirect_ref (tree_expression *expr, tree_expression *field);
// Make a declaration command.
tree_decl_command *
make_decl_command (int tok, token *tok_val, tree_decl_init_list *lst);
// Validate matrix or cell
bool validate_array_list (tree_expression *e);
// Validate matrix object used in "[lhs] = ..." assignments.
tree_argument_list *validate_matrix_for_assignment (tree_expression *e);
// Finish building an array_list (common action for finish_matrix
// and finish_cell).
tree_expression *finish_array_list (tree_array_list *a);
// Finish building a matrix list.
tree_expression *finish_matrix (tree_matrix *m);
// Finish building a cell list.
tree_expression *finish_cell (tree_cell *c);
// Maybe print a warning. Duh.
void maybe_warn_missing_semi (tree_statement_list *);
// Set the print flag for a statement based on the separator type.
tree_statement_list *
set_stmt_print_flag (tree_statement_list *, char, bool);
// Finish building a statement.
template <class T>
tree_statement *make_statement (T *arg);
// Create a statement list.
tree_statement_list *make_statement_list (tree_statement *stmt);
// Append a statement to an existing statement list.
tree_statement_list *
append_statement_list (tree_statement_list *list, char sep,
tree_statement *stmt, bool warn_missing_semi);
// Generic error messages.
void bison_error (const char *s);
// Have we found an explicit end to a function?
bool endfunction_found;
// TRUE means we are in the process of autoloading a function.
bool autoloading;
// TRUE means the current function file was found in a relative path
// element.
bool fcn_file_from_relative_lookup;
// FALSE if we are still at the primary function. Subfunctions can
// only be declared inside function files.
bool parsing_subfunctions;
// Maximum function depth detected. Used to determine whether
// we have nested functions or just implicitly ended subfunctions.
int max_fcn_depth;
// = 0 currently outside any function.
// = 1 inside the primary function or a subfunction.
// > 1 means we are looking at a function definition that seems to be
// inside a function. Note that the function still might not be a
// nested function.
int curr_fcn_depth;
// Scope where we install all subfunctions and nested functions. Only
// used while reading function files.
symbol_table::scope_id primary_fcn_scope;
// Name of the current class when we are parsing class methods or
// constructors.
std::string curr_class_name;
// A stack holding the nested function scopes being parsed.
// We don't use std::stack, because we want the clear method. Also, we
// must access one from the top
std::vector<symbol_table::scope_id> function_scopes;
// Pointer to the primary user function or user script function.
octave_function *primary_fcn_ptr;
// List of subfunction names, initially in the order they are
// installed in the symbol table, then ordered as they appear in the
// file. Eventually stashed in the primary function object.
std::list<std::string> subfunction_names;
// Result of parsing input.
tree_statement_list *stmt_list;
// State of the lexer.
octave_base_lexer& lexer;
private:
// No copying!
octave_base_parser (const octave_base_parser&);
octave_base_parser& operator = (const octave_base_parser&);
};
class
octave_parser : public octave_base_parser
{
public:
octave_parser (void)
: octave_base_parser (*(new octave_lexer ()))
{ }
octave_parser (FILE *file)
: octave_base_parser (*(new octave_lexer (file)))
{ }
octave_parser (const std::string& eval_string)
: octave_base_parser (*(new octave_lexer (eval_string)))
{ }
octave_parser (octave_lexer& lxr)
: octave_base_parser (lxr)
{ }
~octave_parser (void) { }
int run (void);
private:
// No copying!
octave_parser (const octave_parser&);
octave_parser& operator = (const octave_parser&);
};
class
octave_push_parser : public octave_base_parser
{
public:
octave_push_parser (void)
: octave_base_parser (*(new octave_push_lexer ())), parser_state (0)
{
init ();
}
~octave_push_parser (void);
void init (void);
int run (const std::string& input, bool eof);
private:
// Internal state of the Bison parser.
void *parser_state;
// No copying!
octave_push_parser (const octave_push_parser&);
octave_push_parser& operator = (const octave_push_parser&);
};
#endif
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