quakeforge/tools/qfcc/source/obj_file.c
Bill Currie 7a399c956b Encode function parameter alignment
The encoding is 3:5 giving 3 bits for alignment (log2) and 5 bits for
size, with alignment in the 3 most significant bits. This keeps the
format backwards compatible as until doubles were added, all types were
aligned to 1 word which gets encoded as 0, and the size is unaffected.
2020-02-16 17:10:43 +09:00

1137 lines
33 KiB
C

/*
obj_file.c
qfcc object file support
Copyright (C) 2002 Bill Currie <bill@taniwha.org>
Author: Bill Currie <bill@taniwha.org>
Date: 2002/6/21
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
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include <stdlib.h>
#include "QF/dstring.h"
#include "QF/qendian.h"
#include "QF/quakeio.h"
#include "QF/va.h"
#include "codespace.h"
#include "debug.h"
#include "def.h"
#include "defspace.h"
#include "emit.h"
#include "expr.h"
#include "function.h"
#include "obj_file.h"
#include "obj_type.h"
#include "options.h"
#include "qfcc.h"
#include "reloc.h"
#include "statements.h"
#include "strpool.h"
#include "symtab.h"
#include "type.h"
#include "value.h"
static int
count_relocs (reloc_t *r)
{
int count;
for (count = 0; r; r = r->next)
count++;
return count;
}
static unsigned
qfo_def_flags (def_t *def)
{
unsigned flags = 0;
if (def->initialized)
flags |= QFOD_INITIALIZED;
if (def->constant)
flags |= QFOD_CONSTANT;
if (def->global)
flags |= QFOD_GLOBAL;
if (def->external)
flags |= QFOD_EXTERNAL;
if (def->local)
flags |= QFOD_LOCAL;
if (def->system)
flags |= QFOD_SYSTEM;
if (def->nosave)
flags |= QFOD_NOSAVE;
if (def->param)
flags |= QFOD_PARAM;
return flags;
}
static void
qfo_encode_one_reloc (reloc_t *reloc, qfo_reloc_t **qfo_reloc, pr_int_t target)
{
qfo_reloc_t *q;
q = (*qfo_reloc)++;
if (reloc->space) // op_* relocs do not have a space (code is implied)
q->space = reloc->space->qfo_space;
q->offset = reloc->offset;
q->type = reloc->type;
q->target = target;
}
static int
qfo_encode_relocs (reloc_t *relocs, qfo_reloc_t **qfo_relocs, pr_int_t target)
{
int count;
reloc_t *r;
for (count = 0, r = relocs; r; r = r->next) {
count++;
qfo_encode_one_reloc (r, qfo_relocs, target);
}
return count;
}
static int
qfo_encode_defs (qfo_t *qfo, def_t *defs, qfo_def_t **qfo_defs,
qfo_reloc_t **qfo_relocs)
{
int count;
def_t *d;
qfo_def_t *q;
for (count = 0, d = defs; d; d = d->next) {
count++;
q = (*qfo_defs)++;
d->qfo_def = q - qfo->defs;
// defs in the type data space do not have types
if (d->type)
q->type = d->type->type_def->offset;
q->name = ReuseString (d->name);
q->offset = d->offset;
q->relocs = *qfo_relocs - qfo->relocs;
q->num_relocs = qfo_encode_relocs (d->relocs, qfo_relocs,
q - qfo->defs);
q->flags = qfo_def_flags (d);
q->file = d->file;
q->line = d->line;
}
return count;
}
static void
qfo_count_space_stuff (qfo_t *qfo, defspace_t *space)
{
def_t *d;
for (d = space->defs; d; d = d->next) {
qfo->num_defs++;
qfo->num_relocs += count_relocs (d->relocs);
}
}
static void
qfo_count_function_stuff (qfo_t *qfo, function_t *functions)
{
function_t *func;
for (func = functions; func; func = func->next) {
qfo->num_funcs++;
qfo->num_relocs += count_relocs (func->refs);
if (func->symtab && func->symtab->space) {
qfo->num_spaces++;
qfo_count_space_stuff (qfo, func->symtab->space);
}
}
}
static void
qfo_count_stuff (qfo_t *qfo, pr_info_t *pr)
{
qfo_count_space_stuff (qfo, pr->near_data);
qfo_count_space_stuff (qfo, pr->far_data);
qfo_count_space_stuff (qfo, pr->entity_data);
qfo_count_space_stuff (qfo, pr->type_data);
qfo_count_function_stuff (qfo, pr->func_head);
qfo->num_relocs += count_relocs (pr->relocs);
}
static void
qfo_init_string_space (qfo_t *qfo, qfo_mspace_t *space, strpool_t *strings)
{
size_t size = strings->size * sizeof (*strings->strings);
strings->qfo_space = space - qfo->spaces;
space->type = qfos_string;
space->num_defs = 0;
space->defs = 0;
space->d.strings = 0;
if (strings->strings) {
space->d.strings = malloc (size);
memcpy (space->d.strings, strings->strings, size);
}
space->data_size = strings->size;
space->id = qfo_strings_space;
}
static void
qfo_init_code_space (qfo_t *qfo, qfo_mspace_t *space, codespace_t *code)
{
size_t size = code->size * sizeof (*code->code);
code->qfo_space = space - qfo->spaces;
space->type = qfos_code;
space->num_defs = 0;
space->defs = 0;
space->d.code = 0;
if (code->code) {
space->d.code = malloc (size);
memcpy (space->d.code, code->code, size);
}
space->data_size = code->size;
space->id = qfo_code_space;
}
static void
qfo_init_data_space (qfo_t *qfo, qfo_def_t **defs, qfo_reloc_t **relocs,
qfo_mspace_t *space, defspace_t *data)
{
size_t size = data->size * sizeof (*data->data);
data->qfo_space = space - qfo->spaces;
space->type = qfos_data;
space->defs = *defs;
space->num_defs = qfo_encode_defs (qfo, data->defs, defs, relocs);
space->d.data = 0;
if (data->data) {
space->d.data = malloc (size);
memcpy (space->d.data, data->data, size);
}
space->data_size = data->size;
}
static void
qfo_init_entity_space (qfo_t *qfo, qfo_def_t **defs, qfo_reloc_t **relocs,
qfo_mspace_t *space, defspace_t *data)
{
data->qfo_space = space - qfo->spaces;
space->type = qfos_entity;
space->defs = *defs;
space->num_defs = qfo_encode_defs (qfo, data->defs, defs, relocs);
space->d.data = 0;
space->data_size = data->size;
space->id = qfo_entity_space;
}
static void
qfo_init_type_space (qfo_t *qfo, qfo_def_t **defs, qfo_reloc_t **relocs,
qfo_mspace_t *space, defspace_t *data)
{
size_t size = data->size * sizeof (*data->data);
data->qfo_space = space - qfo->spaces;
space->type = qfos_type;
space->defs = *defs;
space->num_defs = qfo_encode_defs (qfo, data->defs, defs, relocs);
space->d.data = 0;
if (data->data) {
space->d.data = malloc (size);
memcpy (space->d.data, data->data, size);
}
space->data_size = data->size;
space->id = qfo_type_space;
}
static void
qfo_encode_functions (qfo_t *qfo, qfo_def_t **defs, qfo_reloc_t **relocs,
qfo_mspace_t *space, function_t *functions)
{
function_t *f;
qfo_func_t *q;
for (f = functions, q = qfo->funcs; f; f = f->next, q++) {
q->name = f->s_name;
q->type = f->def->type->type_def->offset;
q->file = f->s_file;
q->line = f->def->line;
q->code = f->code;
if (f->builtin) // FIXME redundant
q->code = -f->builtin;
q->def = f->def->qfo_def;
if (f->symtab && f->symtab->space) {
space->id = f->symtab->space->qfo_space;
qfo_init_data_space (qfo, defs, relocs, space++, f->symtab->space);
q->locals_space = f->symtab->space->qfo_space;
}
q->line_info = f->line_info;
q->relocs = *relocs - qfo->relocs;
q->num_relocs = qfo_encode_relocs (f->refs, relocs, q - qfo->funcs);
}
}
qfo_t *
qfo_from_progs (pr_info_t *pr)
{
qfo_t *qfo;
qfo_def_t *def;
qfo_reloc_t *reloc;
reloc_t *r;
qfo = calloc (1, sizeof (qfo_t));
qfo->num_spaces = qfo_num_spaces; // certain spaces are always present
qfo_count_stuff (qfo, pr);
qfo->spaces = calloc (qfo->num_spaces, sizeof (qfo_mspace_t));
qfo->relocs = calloc (qfo->num_relocs, sizeof (qfo_reloc_t));
qfo->defs = calloc (qfo->num_defs, sizeof (qfo_def_t));
qfo->funcs = calloc (qfo->num_funcs, sizeof (qfo_func_t));
def = qfo->defs;
reloc = qfo->relocs;
pr->code->qfo_space = qfo_code_space;
pr->near_data->qfo_space = qfo_near_data_space;
pr->far_data->qfo_space = qfo_far_data_space;
pr->entity_data->qfo_space = qfo_entity_space;
pr->type_data->qfo_space = qfo_type_space;
pr->strings->qfo_space = qfo_strings_space;
qfo_init_code_space (qfo, &qfo->spaces[qfo_code_space], pr->code);
qfo_init_data_space (qfo, &def, &reloc, &qfo->spaces[qfo_near_data_space],
pr->near_data);
qfo->spaces[qfo_near_data_space].id = qfo_near_data_space;
qfo_init_data_space (qfo, &def, &reloc, &qfo->spaces[qfo_far_data_space],
pr->far_data);
qfo->spaces[qfo_far_data_space].id = qfo_far_data_space;
qfo_init_entity_space (qfo, &def, &reloc, &qfo->spaces[qfo_entity_space],
pr->entity_data);
qfo_init_type_space (qfo, &def, &reloc, &qfo->spaces[qfo_type_space],
pr->type_data);
qfo_encode_functions (qfo, &def, &reloc, qfo->spaces + qfo_num_spaces,
pr->func_head);
if (pr->num_linenos) {
qfo->lines = malloc (pr->num_linenos * sizeof (pr_lineno_t));
memcpy (qfo->lines, pr->linenos,
pr->num_linenos * sizeof (pr_lineno_t));
qfo->num_lines = pr->num_linenos;
}
// strings must be done last because encoding defs and functions adds the
// names
qfo_init_string_space (qfo, &qfo->spaces[qfo_strings_space], pr->strings);
qfo->num_loose_relocs = qfo->num_relocs - (reloc - qfo->relocs);
for (r = pr->relocs; r; r = r->next) {
if (r->type == rel_def_op) {
qfo_encode_one_reloc (r, &reloc, r->label->dest->offset);
} else if (r->type == rel_def_string) {
def_t d;
d.space = r->space;
d.offset = r->offset;
qfo_encode_one_reloc (r, &reloc, D_STRING (&d));
} else {
qfo_encode_one_reloc (r, &reloc, 0);
}
}
return qfo;
}
static int
qfo_space_size (qfo_mspace_t *space)
{
switch (space->type) {
case qfos_null:
return 0;
case qfos_code:
return space->data_size * sizeof (*space->d.code);
case qfos_data:
// data size > 0 but d.data == null -> all data is zero
if (!space->d.data)
return 0;
return space->data_size * sizeof (*space->d.data);
case qfos_string:
return space->data_size * sizeof (*space->d.strings);
case qfos_entity:
return 0;
case qfos_type:
return space->data_size * sizeof (*space->d.data);
}
return 0;
}
static void
qfo_byteswap_space (void *space, int size, qfos_type_t type)
{
int c;
pr_type_t *val;
dstatement_t *s;
switch (type) {
case qfos_null:
case qfos_string:
break;
case qfos_code:
for (s = (dstatement_t *) space, c = 0; c < size; c++, s++) {
s->op = LittleShort (s->op);
s->a = LittleShort (s->a);
s->b = LittleShort (s->b);
s->c = LittleShort (s->c);
}
break;
case qfos_data:
case qfos_entity:
case qfos_type:
for (val = (pr_type_t *) space, c = 0; c < size; c++, val++)
val->integer_var = LittleLong (val->integer_var);
break;
}
}
int
qfo_write (qfo_t *qfo, const char *filename)
{
unsigned size;
int space_offset;
unsigned i;
byte *data;
qfo_header_t *header;
qfo_space_t *spaces;
qfo_reloc_t *relocs;
qfo_def_t *defs;
qfo_func_t *funcs;
pr_lineno_t *lines;
byte *space_data;
QFile *file;
file = Qopen (filename, options.gzip ? "wbz9" : "wb");
if (!file) {
perror (va ("failed to open %s for writing", filename));
return -1;
}
size = sizeof (qfo_header_t);
size += sizeof (qfo_space_t) * qfo->num_spaces;
size += sizeof (qfo_reloc_t) * qfo->num_relocs;
size += sizeof (qfo_def_t) * qfo->num_defs;
size += sizeof (qfo_func_t) * qfo->num_funcs;
size += sizeof (pr_lineno_t) * qfo->num_lines;
space_offset = size;
for (i = 0; i < qfo->num_spaces; i++)
size += RUP (qfo_space_size (qfo->spaces + i), 16);
data = calloc (1, size);
header = (qfo_header_t *) data;
memcpy (header->qfo, QFO, 4);
header->version = LittleLong (QFO_VERSION);
header->num_spaces = LittleLong (qfo->num_spaces);
header->num_relocs = LittleLong (qfo->num_relocs);
header->num_defs = LittleLong (qfo->num_defs);
header->num_funcs = LittleLong (qfo->num_funcs);
header->num_lines = LittleLong (qfo->num_lines);
header->num_loose_relocs = LittleLong (qfo->num_loose_relocs);
spaces = (qfo_space_t *) &header[1];
relocs = (qfo_reloc_t *) &spaces[qfo->num_spaces];
defs = (qfo_def_t *) &relocs[qfo->num_relocs];
funcs = (qfo_func_t *) &defs[qfo->num_defs];
lines = (pr_lineno_t *) &funcs[qfo->num_funcs];
space_data = data + space_offset;
for (i = 0; i < qfo->num_spaces; i++) {
spaces[i].type = LittleLong (qfo->spaces[i].type);
if (qfo->spaces[i].defs)
spaces[i].defs = LittleLong (qfo->spaces[i].defs - qfo->defs);
spaces[i].num_defs = LittleLong (qfo->spaces[i].num_defs);
if (qfo->spaces[i].d.data) {
int space_size = qfo_space_size (qfo->spaces + i);
spaces[i].data = LittleLong (space_data - data);
memcpy (space_data, qfo->spaces[i].d.data, space_size);
qfo_byteswap_space (space_data, qfo->spaces[i].data_size,
qfo->spaces[i].type);
space_data += RUP (space_size, 16);
}
spaces[i].data_size = LittleLong (qfo->spaces[i].data_size);
spaces[i].id = LittleLong (qfo->spaces[i].id);
}
for (i = 0; i < qfo->num_relocs; i++) {
relocs[i].space = LittleLong (qfo->relocs[i].space);
relocs[i].offset = LittleLong (qfo->relocs[i].offset);
relocs[i].type = LittleLong (qfo->relocs[i].type);
relocs[i].target = LittleLong (qfo->relocs[i].target);
}
for (i = 0; i < qfo->num_defs; i++) {
defs[i].type = LittleLong (qfo->defs[i].type);
defs[i].name = LittleLong (qfo->defs[i].name);
defs[i].offset = LittleLong (qfo->defs[i].offset);
defs[i].relocs = LittleLong (qfo->defs[i].relocs);
defs[i].num_relocs = LittleLong (qfo->defs[i].num_relocs);
defs[i].flags = LittleLong (qfo->defs[i].flags);
defs[i].file = LittleLong (qfo->defs[i].file);
defs[i].line = LittleLong (qfo->defs[i].line);
}
for (i = 0; i < qfo->num_funcs; i++) {
funcs[i].name = LittleLong (qfo->funcs[i].name);
funcs[i].type = LittleLong (qfo->funcs[i].type);
funcs[i].file = LittleLong (qfo->funcs[i].file);
funcs[i].line = LittleLong (qfo->funcs[i].line);
funcs[i].code = LittleLong (qfo->funcs[i].code);
funcs[i].def = LittleLong (qfo->funcs[i].def);
funcs[i].locals_space = LittleLong (qfo->funcs[i].locals_space);
funcs[i].line_info = LittleLong (qfo->funcs[i].line_info);
funcs[i].relocs = LittleLong (qfo->funcs[i].relocs);
funcs[i].num_relocs = LittleLong (qfo->funcs[i].num_relocs);
}
for (i = 0; i < qfo->num_lines; i++) {
lines[i].fa.addr = LittleLong (qfo->lines[i].fa.addr);
lines[i].line = LittleLong (qfo->lines[i].line);
}
Qwrite (file, data, size);
free (data);
Qclose (file);
return 0;
}
qfo_t *
qfo_read (QFile *file)
{
char *data;
int size;
qfo_header_t *header;
qfo_space_t *spaces;
qfo_t *qfo;
unsigned i;
size = Qfilesize (file);
data = malloc (size);
Qread (file, data, size);
header = (qfo_header_t *) data;
header->version = LittleLong (header->version);
if (memcmp (header->qfo, QFO, 4) || header->version != QFO_VERSION) {
fprintf (stderr, "not a valid qfo file\n");
free (data);
return 0;
}
qfo = calloc (1, sizeof (qfo_t));
qfo->num_spaces = LittleLong (header->num_spaces);
qfo->num_relocs = LittleLong (header->num_relocs);
qfo->num_defs = LittleLong (header->num_defs);
qfo->num_funcs = LittleLong (header->num_funcs);
qfo->num_lines = LittleLong (header->num_lines);
qfo->num_loose_relocs = LittleLong (header->num_loose_relocs);
spaces = (qfo_space_t *) &header[1];
qfo->data = data;
qfo->spaces = calloc (sizeof (qfo_mspace_t), qfo->num_spaces);
qfo->relocs = (qfo_reloc_t *) &spaces[qfo->num_spaces];
qfo->defs = (qfo_def_t *) &qfo->relocs[qfo->num_relocs];
qfo->funcs = (qfo_func_t *) &qfo->defs[qfo->num_defs];
qfo->lines = (pr_lineno_t *) &qfo->funcs[qfo->num_funcs];
for (i = 0; i < qfo->num_spaces; i++) {
qfo->spaces[i].type = LittleLong (spaces[i].type);
qfo->spaces[i].num_defs = LittleLong (spaces[i].num_defs);
if (qfo->spaces[i].num_defs)
qfo->spaces[i].defs = qfo->defs + LittleLong (spaces[i].defs);
qfo->spaces[i].data_size = LittleLong (spaces[i].data_size);
if (spaces[i].data) {
qfo->spaces[i].d.strings = data + LittleLong (spaces[i].data);
qfo_byteswap_space (qfo->spaces[i].d.data,
qfo->spaces[i].data_size, qfo->spaces[i].type);
}
qfo->spaces[i].id = LittleLong (spaces[i].id);
}
for (i = 0; i < qfo->num_relocs; i++) {
qfo->relocs[i].space = LittleLong (qfo->relocs[i].space);
qfo->relocs[i].offset = LittleLong (qfo->relocs[i].offset);
qfo->relocs[i].type = LittleLong (qfo->relocs[i].type);
qfo->relocs[i].target = LittleLong (qfo->relocs[i].target);
}
for (i = 0; i < qfo->num_defs; i++) {
qfo->defs[i].type = LittleLong (qfo->defs[i].type);
qfo->defs[i].name = LittleLong (qfo->defs[i].name);
qfo->defs[i].offset = LittleLong (qfo->defs[i].offset);
qfo->defs[i].relocs = LittleLong (qfo->defs[i].relocs);
qfo->defs[i].num_relocs = LittleLong (qfo->defs[i].num_relocs);
qfo->defs[i].flags = LittleLong (qfo->defs[i].flags);
qfo->defs[i].file = LittleLong (qfo->defs[i].file);
qfo->defs[i].line = LittleLong (qfo->defs[i].line);
}
for (i = 0; i < qfo->num_funcs; i++) {
qfo->funcs[i].name = LittleLong (qfo->funcs[i].name);
qfo->funcs[i].type = LittleLong (qfo->funcs[i].type);
qfo->funcs[i].file = LittleLong (qfo->funcs[i].file);
qfo->funcs[i].line = LittleLong (qfo->funcs[i].line);
qfo->funcs[i].code = LittleLong (qfo->funcs[i].code);
qfo->funcs[i].def = LittleLong (qfo->funcs[i].def);
qfo->funcs[i].locals_space = LittleLong (qfo->funcs[i].locals_space);
qfo->funcs[i].line_info = LittleLong (qfo->funcs[i].line_info);
qfo->funcs[i].relocs = LittleLong (qfo->funcs[i].relocs);
qfo->funcs[i].num_relocs = LittleLong (qfo->funcs[i].num_relocs);
}
for (i = 0; i < qfo->num_lines; i++) {
qfo->lines[i].fa.addr = LittleLong (qfo->lines[i].fa.addr);
qfo->lines[i].line = LittleLong (qfo->lines[i].line);
}
return qfo;
}
qfo_t *
qfo_open (const char *filename)
{
qfo_t *qfo;
QFile *file;
file = Qopen (filename, "rbz");
if (!file) {
perror (filename);
return 0;
}
qfo = qfo_read (file);
Qclose (file);
return qfo;
}
qfo_t *
qfo_new (void)
{
return calloc (1, sizeof (qfo_t));
}
void
qfo_delete (qfo_t *qfo)
{
if (qfo->data) {
free (qfo->data);
} else {
unsigned i;
for (i = 0; i < qfo->num_spaces; i++)
free (qfo->spaces[i].d.data);
free (qfo->relocs);
free (qfo->defs);
free (qfo->funcs);
free (qfo->lines);
}
free (qfo->spaces);
free (qfo);
}
static etype_t
get_def_type (qfo_t *qfo, pointer_t type)
{
qfot_type_t *type_def;
if (type >= qfo->spaces[qfo_type_space].data_size)
return ev_void;
type_def = QFO_POINTER (qfo, qfo_type_space, qfot_type_t, type);
switch ((ty_meta_e)type_def->meta) {
case ty_none:
// field, pointer and function types store their basic type in
// the same location.
return type_def->t.type;
case ty_struct:
case ty_union:
return ev_invalid;
case ty_enum:
if (options.code.progsversion == PROG_ID_VERSION)
return ev_float;
return ev_integer;
case ty_array:
case ty_class:
return ev_invalid;
}
return ev_invalid;
}
static __attribute__((pure)) int
get_type_size (qfo_t *qfo, pointer_t type)
{
qfot_type_t *type_def;
int i, size;
if (type >= qfo->spaces[qfo_type_space].data_size)
return 1;
type_def = QFO_POINTER (qfo, qfo_type_space, qfot_type_t, type);
switch ((ty_meta_e)type_def->meta) {
case ty_none:
// field, pointer and function types store their basic type in
// the same location.
return pr_type_size[type_def->t.type];
case ty_struct:
for (i = size = 0; i < type_def->t.strct.num_fields; i++)
size += get_type_size (qfo, type_def->t.strct.fields[i].type);
return size;
case ty_union:
for (i = size = 0; i < type_def->t.strct.num_fields; i++) {
int s;
s = get_type_size (qfo, type_def->t.strct.fields[i].type);
if (s > size)
size = s;
}
return size;
case ty_enum:
return pr_type_size[ev_integer];
case ty_array:
return type_def->t.array.size
* get_type_size (qfo, type_def->t.array.type);
case ty_class:
return 0; // FIXME
}
return 0;
}
int
qfo_log2 (unsigned x)
{
int log2 = 0;
while (x > 1) {
x >>= 1;
log2++;
}
return log2;
}
static __attribute__((pure)) int
get_type_alignment_log (qfo_t *qfo, pointer_t type)
{
qfot_type_t *type_def;
int i, alignment;
if (type >= qfo->spaces[qfo_type_space].data_size)
return 0;
type_def = QFO_POINTER (qfo, qfo_type_space, qfot_type_t, type);
switch ((ty_meta_e)type_def->meta) {
case ty_none:
// field, pointer and function types store their basic type in
// the same location.
return qfo_log2 (ev_types[type_def->t.type]->alignment);
case ty_struct:
case ty_union:
for (i = alignment = 0; i < type_def->t.strct.num_fields; i++) {
qfot_var_t *field = type_def->t.strct.fields + i;
int a;
a = get_type_alignment_log (qfo, field->type);
if (a > alignment) {
alignment = a;
}
}
return alignment;
case ty_enum:
return qfo_log2 (ev_types[ev_integer]->alignment);
case ty_array:
return get_type_alignment_log (qfo, type_def->t.array.type);
case ty_class:
return 0; // FIXME
}
return 0;
}
static __attribute__((pure)) dparmsize_t
get_parmsize (qfo_t *qfo, pointer_t type)
{
dparmsize_t parmsize = {
get_type_size (qfo, type),
get_type_alignment_log (qfo, type),
};
return parmsize;
}
static void
function_params (qfo_t *qfo, qfo_func_t *func, dfunction_t *df)
{
qfot_type_t *type;
int num_params;
int i;
if (func->type >= qfo->spaces[qfo_type_space].data_size)
return;
type = QFO_POINTER (qfo, qfo_type_space, qfot_type_t, func->type);
if (type->meta != ty_none && type->t.type != ev_func)
return;
df->numparms = num_params = type->t.func.num_params;
if (num_params < 0)
num_params = ~num_params;
for (i = 0; i < num_params; i++) {
df->parm_size[i] = get_parmsize (qfo, type->t.func.param_types[i]);
}
}
static void
convert_def (qfo_t *qfo, const qfo_def_t *def, ddef_t *ddef)
{
ddef->type = get_def_type (qfo, def->type);
ddef->ofs = def->offset;
ddef->s_name = def->name;
if (!(def->flags & QFOD_NOSAVE)
&& !(def->flags & QFOD_CONSTANT)
&& (def->flags & QFOD_GLOBAL)
&& ddef->type != ev_func
&& ddef->type != ev_field)
ddef->type |= DEF_SAVEGLOBAL;
}
static void
qfo_relocate_refs (qfo_t *qfo)
{
unsigned i;
qfo_reloc_t *reloc;
for (i = 0, reloc = qfo->relocs; i < qfo->num_relocs; i++, reloc++) {
// this will be valid only for *_def[_ofs] and *_field[_ofs] relocs
qfo_def_t *def = qfo->defs + reloc->target;
switch (reloc->type) {
case rel_none:
break;
case rel_op_a_def:
QFO_STATEMENT (qfo, reloc->offset)->a = def->offset;
break;
case rel_op_b_def:
QFO_STATEMENT (qfo, reloc->offset)->b = def->offset;
break;
case rel_op_c_def:
QFO_STATEMENT (qfo, reloc->offset)->c = def->offset;
break;
case rel_op_a_op:
case rel_op_b_op:
case rel_op_c_op:
// these should never appear in a qfo file
break;
case rel_def_op:
QFO_INT (qfo, reloc->space, reloc->offset) = reloc->target;
break;
case rel_def_def:
QFO_INT (qfo, reloc->space, reloc->offset) = def->offset;
break;
case rel_def_func:
QFO_INT (qfo, reloc->space, reloc->offset) = reloc->target + 1;
break;
case rel_def_string:
QFO_INT (qfo, reloc->space, reloc->offset) = reloc->target;
break;
case rel_def_field:
QFO_INT (qfo, reloc->space, reloc->offset) = def->offset;
break;
case rel_op_a_def_ofs:
QFO_STATEMENT (qfo, reloc->offset)->a += def->offset;
break;
case rel_op_b_def_ofs:
QFO_STATEMENT (qfo, reloc->offset)->b += def->offset;
break;
case rel_op_c_def_ofs:
QFO_STATEMENT (qfo, reloc->offset)->c += def->offset;
break;
case rel_def_def_ofs:
QFO_INT (qfo, reloc->space, reloc->offset) += def->offset;
break;
case rel_def_field_ofs:
QFO_INT (qfo, reloc->space, reloc->offset) += def->offset;
break;
}
}
}
static unsigned
align_globals_size (unsigned size)
{
if (options.code.progsversion == PROG_ID_VERSION)
return size;
return RUP (size, 16 / sizeof (pr_type_t));
}
dprograms_t *
qfo_to_progs (qfo_t *qfo, int *size)
{
byte *data;
char *strings;
dstatement_t *statements;
dfunction_t *functions;
ddef_t *globaldefs;
ddef_t *fielddefs;
pr_type_t *globals;
pr_type_t *locals;
pr_type_t *far_data;
pr_type_t *type_data;
dprograms_t *progs;
qfo_def_t *types_def = 0;
unsigned i, j;
unsigned near_data_size = 0;
unsigned locals_size = 0;
int locals_start;
unsigned big_locals = 0;
int big_func = 0;
*size = RUP (sizeof (dprograms_t), 16);
progs = calloc (1, *size);
progs->version = options.code.progsversion;
progs->numstatements = qfo->spaces[qfo_code_space].data_size;
progs->numglobaldefs = qfo->spaces[qfo_near_data_space].num_defs;
//FIXME ddef offsets are 16 bits
progs->numglobaldefs += qfo->spaces[qfo_far_data_space].num_defs;
progs->numfielddefs = qfo->spaces[qfo_entity_space].num_defs;
progs->numfunctions = qfo->num_funcs + 1;
progs->numstrings = qfo->spaces[qfo_strings_space].data_size;
progs->numglobals = qfo->spaces[qfo_near_data_space].data_size;
progs->numglobals = align_globals_size (progs->numglobals);
locals_start = progs->numglobals;
for (i = qfo_num_spaces; i < qfo->num_spaces; i++) {
if (options.code.local_merging) {
if (locals_size < qfo->spaces[i].data_size) {
locals_size = qfo->spaces[i].data_size;
big_locals = i;
}
} else {
locals_size += align_globals_size (qfo->spaces[i].data_size);
}
}
progs->numglobals += locals_size;
near_data_size = progs->numglobals;
progs->numglobals = RUP (progs->numglobals, 16 / sizeof (pr_type_t));
progs->numglobals += qfo->spaces[qfo_far_data_space].data_size;
progs->numglobals += qfo->spaces[qfo_type_space].data_size;
progs->entityfields = qfo->spaces[qfo_entity_space].data_size;
*size += progs->numstatements * sizeof (dstatement_t);
*size += progs->numglobaldefs * sizeof (ddef_t);
*size += progs->numfielddefs * sizeof (ddef_t);
*size += progs->numfunctions * sizeof (dfunction_t);
*size += RUP (progs->numstrings * sizeof (char), 16);
*size += progs->numglobals * sizeof (pr_type_t);
progs = realloc (progs, *size);
data = (byte *) progs;
memset (progs + 1, 0, *size - sizeof (dprograms_t));
data += RUP (sizeof (dprograms_t), 16);
progs->ofs_strings = data - (byte *) progs;
strings = (char *) data;
data += RUP (progs->numstrings * sizeof (char), 16);
progs->ofs_statements = data - (byte *) progs;
statements = (dstatement_t *) data;
data += progs->numstatements * sizeof (dstatement_t);
progs->ofs_functions = data - (byte *) progs;
functions = (dfunction_t *) data;
functions++; // skip over null function
data += progs->numfunctions * sizeof (dfunction_t);
progs->ofs_globaldefs = data - (byte *) progs;
globaldefs = (ddef_t *) data;
data += progs->numglobaldefs * sizeof (ddef_t);
progs->ofs_fielddefs = data - (byte *) progs;
fielddefs = (ddef_t *) (globaldefs + progs->numglobaldefs);
data += progs->numfielddefs * sizeof (ddef_t);
progs->ofs_globals = data - (byte *) progs;
globals = (pr_type_t*) data;
locals = globals + locals_start;
far_data = globals + near_data_size;
type_data = far_data + qfo->spaces[qfo_far_data_space].data_size;
memcpy (strings, qfo->spaces[qfo_strings_space].d.strings,
qfo->spaces[qfo_strings_space].data_size * sizeof (char));
qfo->spaces[qfo_strings_space].d.strings = strings;
memcpy (statements, qfo->spaces[qfo_code_space].d.code,
qfo->spaces[qfo_code_space].data_size * sizeof (dstatement_t));
qfo->spaces[qfo_code_space].d.code = statements;
for (i = 0; i < qfo->num_funcs; i++) {
dfunction_t *df = functions + i;
qfo_func_t *qf = qfo->funcs + i;
qfo_mspace_t *space = qfo->spaces + qf->locals_space;
df->first_statement = qf->code;
df->parm_start = locals_start;
df->locals = space->data_size;
// finalize the offsets of the local defs
for (j = 0; j < space->num_defs; j++)
space->defs[j].offset += locals_start;
if (!options.code.local_merging)
locals_start += align_globals_size (df->locals);
df->profile = 0;
df->s_name = qf->name;
df->s_file = qf->file;
function_params (qfo, qf, df);
}
for (i = 0; i < qfo->spaces[qfo_near_data_space].num_defs; i++) {
qfo_def_t *def = qfo->spaces[qfo_near_data_space].defs + i;
if (!strcmp (QFO_GETSTR (qfo, def->name), ".type_encodings"))
types_def = def;
convert_def (qfo, def, globaldefs++);
}
//FIXME ddef offsets are 16 bits
for (i = 0; i < qfo->spaces[qfo_far_data_space].num_defs; i++) {
qfo_def_t *def = qfo->spaces[qfo_far_data_space].defs + i;
def->offset += far_data - globals;
convert_def (qfo, def, globaldefs++);
}
for (i = 0; i < qfo->spaces[qfo_type_space].num_defs; i++) {
qfo->spaces[qfo_type_space].defs[i].offset += type_data - globals;
}
for (i = 0; i < qfo->spaces[qfo_entity_space].num_defs; i++) {
convert_def (qfo, qfo->spaces[qfo_entity_space].defs + i,
fielddefs + i);
}
// copy near data
memcpy (globals, qfo->spaces[qfo_near_data_space].d.data,
qfo->spaces[qfo_near_data_space].data_size * sizeof (pr_type_t));
qfo->spaces[qfo_near_data_space].d.data = globals;
// clear locals data
memset (locals, 0, locals_size * sizeof (pr_type_t));
// copy far data
memcpy (far_data, qfo->spaces[qfo_far_data_space].d.data,
qfo->spaces[qfo_far_data_space].data_size * sizeof (pr_type_t));
qfo->spaces[qfo_far_data_space].d.data = far_data;
// copy type data
memcpy (type_data, qfo->spaces[qfo_type_space].d.data,
qfo->spaces[qfo_type_space].data_size * sizeof (pr_type_t));
qfo->spaces[qfo_type_space].d.data = type_data;
qfo_relocate_refs (qfo);
if (types_def) {
qfot_type_encodings_t *encodings;
encodings = (qfot_type_encodings_t *) &globals[types_def->offset];
encodings->types = type_data - globals;
encodings->size = qfo->spaces[qfo_type_space].data_size;
}
// undo the relocation of the offsets of local defs so the local defs have
// the correct offset in the debug info
for (i = 0; i < qfo->num_funcs; i++) {
dfunction_t *df = functions + i;
qfo_func_t *qf = qfo->funcs + i;
qfo_mspace_t *space = qfo->spaces + qf->locals_space;
if (qf->locals_space == big_locals)
big_func = i;
for (j = 0; j < space->num_defs; j++)
space->defs[j].offset -= df->parm_start;
}
if (options.verbosity >= 0) {
const char *big_function = "";
if (big_func)
big_function = va (" (%s)", strings + qfo->funcs[big_func].name);
printf ("%6i strofs\n", progs->numstrings);
printf ("%6i statements\n", progs->numstatements);
printf ("%6i functions\n", progs->numfunctions);
printf ("%6i global defs\n", progs->numglobaldefs);
printf ("%6i fielddefs\n", progs->numfielddefs);
printf ("%6i globals\n", progs->numglobals);
printf (" %6i near globals\n", near_data_size);
printf (" %6i locals size%s\n", locals_size, big_function);
printf (" %6i far globals\n",
qfo->spaces[qfo_far_data_space].data_size);
printf (" %6i type globals\n",
qfo->spaces[qfo_type_space].data_size);
printf ("%6i entity fields\n", progs->entityfields);
}
if (options.verbosity >= -1)
printf ("%6i TOTAL SIZE\n", *size);
return progs;
}
pr_debug_header_t *
qfo_to_sym (qfo_t *qfo, int *size)
{
pr_debug_header_t *sym;
unsigned i, j;
pr_auxfunction_t *auxfuncs;
pr_auxfunction_t *aux;
pr_lineno_t *linenos;
ddef_t *locals, *ld;
*size = sizeof (pr_debug_header_t);
sym = calloc (1, *size);
sym->version = PROG_DEBUG_VERSION;
for (i = 0; i < qfo->num_funcs; i++) {
qfo_func_t *func = qfo->funcs + i;
unsigned num_locals = 0;
if (func->locals_space)
num_locals = qfo->spaces[func->locals_space].num_defs;
if (!func->line_info && !num_locals)
continue;
sym->num_auxfunctions++;
sym->num_locals += num_locals;
}
sym->num_linenos = qfo->num_lines;
*size += sym->num_auxfunctions * sizeof (pr_auxfunction_t);
*size += sym->num_linenos * sizeof (pr_lineno_t);
*size += sym->num_locals * sizeof (ddef_t);
sym = realloc (sym, *size);
auxfuncs = (pr_auxfunction_t *)(sym + 1);
linenos = (pr_lineno_t *)(auxfuncs + sym->num_auxfunctions);
locals = (ddef_t *)(linenos + sym->num_linenos);
sym->auxfunctions = (char *) auxfuncs - (char *) sym;
sym->linenos = (char *) linenos - (char *) sym;
sym->locals = (char *) locals - (char *) sym;
ld = locals;
for (i = 0, aux = auxfuncs; i < qfo->num_funcs; i++) {
qfo_func_t *func = qfo->funcs + i;
qfo_def_t *def = 0;
unsigned num_locals = 0;
qfot_type_t *type;
if (func->locals_space) {
num_locals = qfo->spaces[func->locals_space].num_defs;
def = qfo->spaces[func->locals_space].defs;
}
if (!func->line_info && !num_locals)
continue;
memset (aux, 0, sizeof (*aux));
aux->function = i + 1;
aux->source_line = func->line;
aux->line_info = func->line_info;
if (func->line_info)
qfo->lines[func->line_info].fa.func = aux - auxfuncs;
if (num_locals) {
aux->local_defs = ld - locals;
for (j = 0; j < num_locals; j++)
convert_def (qfo, def++, ld++);
}
aux->num_locals = num_locals;
//FIXME check type
type = QFO_POINTER (qfo, qfo_type_space, qfot_type_t, func->type);
aux->return_type = type->t.func.return_type;
aux++;
}
memcpy (linenos, qfo->lines, qfo->num_lines * sizeof (pr_lineno_t));
return sym;
}