quakeforge/tools/qfcc/include/function.h
Bill Currie 52a399daeb [qfcc] Update sizes and alignments for dvec4 and friends
dvec4, lvec4 and ulvec4 need to be aligned to 8 words (32 bytes) in
order to avoid hardware exceptions. Rather than dealing with possibly
mixed alignment when a function has 8-word aligned locals but only
4-word aligned parameters, simply keep the stack frame 8-word aligned at
all times.

As for sizes, the temp def recycler was written before the Ruamoko ISA
was even a pipe dream and thus never expected temp def sizes over 4. At
least now any future adjustments can be done in one place.

My quick and dirty test program works :)

    dvec4 xy = {1d, 2d, 0d, 0.5};
    void printf(string fmt, ...) = #0;
    int main()
    {
	dvec4 u = {3, 4, 3.14};
	dvec4 v = {3, 4, 0, 1};
	dvec4 w = v * xy + u;
	printf ("[%g, %g, %g, %g]\n", w[0], w[1], w[2], w[3]);
	return 0;
    }
2022-02-04 08:46:58 +09:00

177 lines
6.4 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/progs/pr_comp.h"
#include "QF/progs/pr_debug.h"
#include "def.h"
#define MAX_DEF_SIZE ((int)PR_SIZEOF(lvec4))
/** 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
pr_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 params_start;///< relative to locals space. 0 for v6p
pr_string_t s_file; ///< source file with definition
pr_string_t s_name; ///< name of function in output
const struct type_s *type; ///< function's type without aliases
int temp_reg; ///< base register to use for temp defs
int temp_num; ///< number for next temp var
struct def_s *temp_defs[MAX_DEF_SIZE];///< freed temp vars (by size)
struct def_s *def; ///< output def holding function number
struct symbol_s *sym; ///< internal symbol for this function
/** \name Local data space
The function parameters form the root scope for the function. Its
defspace is separate from the locals defspace so that it can be moved
to the beginning of locals space for v6 progs, and too the end (just
above the stack pointer on entry to the function) for Ruamoko progs.
The locals scope is a direct child of the parameters scope, and any
sub-scope symbol tables are not directly accessible, but all defs
other than function call arugments created in the function's local
data space are recorded in the root local scope symbol table's
defspace.
The arguments defspace is not used for v6 progs. It is used as a
highwater allocator for the arguments to all calls made by the
funciton, with the arguments to separate functions overlapping each
other.
Afther the function has been emitted, locals, arguments and possibly
parameters will be merged into the one defspace.
*/
///@{
struct symtab_s *parameters; ///< Root scope symbol table
struct symtab_s *locals; ///< Actual local variables
struct defspace_s *arguments; ///< Space for called function arguments
///@}
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 pseudo_addr;///< pseudo address space for flow analysis
struct pseudoop_s *pseudo_ops;///< pseudo operands used by this function
} 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,
enum storage_class_e storage);
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,
enum storage_class_e storage);
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