quakeforge/tools/qfcc/include/function.h
Bill Currie 8479cad8a8 [qfcc] Record alias-free type in function_t
This eases type unaliasing on functions a little.

Still more to to go, but this fixes a really hair-pulling bug: linux's
heap randomiser was making the typedef test fail randomly whenever
typedef.qfo was compiled.
2020-03-28 15:10:14 +09:00

153 lines
5.2 KiB
C

/*
function.h
QC function support code
Copyright (C) 2002 Bill Currie <bill@taniwha.org>
Author: Bill Currie <bill@taniwha.org>
Date: 2002/05/08
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:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifndef __function_h
#define __function_h
/** \defgroup qfcc_function Internal function structures.
\ingroup qfcc
*/
///@{
#include "QF/pr_comp.h"
#include "QF/pr_debug.h"
#include "def.h"
/** Represent an overloading of a function.
Every function, whether overloaded or not, has an entry in the overloaded
function database.
*/
typedef struct overloaded_function_s {
struct overloaded_function_s *next;
const char *name; ///< source level name of function
const char *full_name; ///< progs name of function, with type
///< encoding
const struct type_s *type; ///< type of this function
int overloaded; ///< is this function overloaded
string_t file; ///< source file of the function
int line; ///< source line of this function
} overloaded_function_t;
/** Internal representation of a function.
*/
typedef struct function_s {
struct function_s *next;
int builtin; ///< if non 0, call an internal function
int code; ///< first statement
int function_num;
int line_info;
int local_defs;
string_t s_file; ///< source file with definition
string_t s_name; ///< name of function in output
const struct type_s *type; ///< function's type without aliases
int temp_num; ///< number for next temp var
struct def_s *temp_defs[4]; ///< freed temp vars (by size)
struct def_s *def; ///< output def holding function number
struct symbol_s *sym; ///< internal symbol for this function
/** Root scope symbol table of the function.
Sub-scope symbol tables are not directly accessible, but all defs
created in the function's local data space are recorded in the root
scope symbol table's defspace.
*/
struct symtab_s *symtab;
struct symtab_s *label_scope;
struct reloc_s *refs; ///< relocation targets for this function
struct expr_s *var_init;
const char *name; ///< nice name for __PRETTY_FUNCTION__
struct sblock_s *sblock; ///< initial node of function's code
struct flowgraph_s *graph; ///< the function's flow graph
/** Array of pointers to all variables referenced by the function's code.
This permits ready mapping of (function specific) variable number to
variable in the flow analyzer.
*/
struct flowvar_s **vars;
int num_vars; ///< total number of variables referenced
struct set_s *global_vars;///< set indicating which vars are global
struct statement_s **statements;
int num_statements;
int tmpaddr; ///< tmp var "address" for flow analysis
} function_t;
extern function_t *current_func;
/** Representation of a function parameter.
\note The first two fields match the first two fields of keywordarg_t
in method.h
*/
typedef struct param_s {
struct param_s *next;
const char *selector;
struct type_s *type;
const char *name;
struct symbol_s *symbol; //FIXME what is this for?
} param_t;
struct expr_s;
struct symbol_s;
struct symtab_s;
param_t *new_param (const char *selector, struct type_s *type,
const char *name);
param_t *param_append_identifiers (param_t *params, struct symbol_s *idents,
struct type_s *type);
param_t *reverse_params (param_t *params);
param_t *append_params (param_t *params, param_t *more_params);
param_t *copy_params (param_t *params);
struct type_s *parse_params (struct type_s *type, param_t *params);
param_t *check_params (param_t *params);
enum storage_class_e;
struct defspace_s;
void make_function (struct symbol_s *sym, const char *nice_name,
struct defspace_s *space, enum storage_class_e storage);
struct symbol_s *function_symbol (struct symbol_s *sym,
int overload, int create);
struct expr_s *find_function (struct expr_s *fexpr, struct expr_s *params);
function_t *new_function (const char *name, const char *nice_name);
void add_function (function_t *f);
function_t *begin_function (struct symbol_s *sym, const char *nicename,
struct symtab_s *parent, int far);
function_t *build_code_function (struct symbol_s *fsym,
struct expr_s *state_expr,
struct expr_s *statements);
function_t *build_builtin_function (struct symbol_s *sym,
struct expr_s *bi_val, int far);
void finish_function (function_t *f);
void emit_function (function_t *f, struct expr_s *e);
int function_parms (function_t *f, byte *parm_size);
void clear_functions (void);
///@}
#endif//__function_h