quakeforge/tools/qfcc/source/obj_file.c
Bill Currie 6d5ffa9f8e [build] Move to non-recursive make
There's still some cleanup to do, but everything seems to be working
nicely: `make -j` works, `make distcheck` passes. There is probably
plenty of bitrot in the package directories (RPM, debian), though.

The vc project files have been removed since those versions are way out
of date and quakeforge is pretty much dependent on gcc now anyway.

Most of the old Makefile.am files  are now Makemodule.am.  This should
allow for new Makefile.am files that allow local building (to be added
on an as-needed bases).  The current remaining Makefile.am files are for
standalone sub-projects.a

The installable bins are currently built in the top-level build
directory. This may change if the clutter gets to be too much.

While this does make a noticeable difference in build times, the main
reason for the switch was to take care of the growing dependency issues:
now it's possible to build tools for code generation (eg, using qfcc and
ruamoko programs for code-gen).
2020-06-25 11:35:37 +09:00

1291 lines
38 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
#define _GNU_SOURCE // for qsort_r
#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 "tools/qfcc/include/codespace.h"
#include "tools/qfcc/include/debug.h"
#include "tools/qfcc/include/def.h"
#include "tools/qfcc/include/defspace.h"
#include "tools/qfcc/include/emit.h"
#include "tools/qfcc/include/expr.h"
#include "tools/qfcc/include/function.h"
#include "tools/qfcc/include/obj_file.h"
#include "tools/qfcc/include/obj_type.h"
#include "tools/qfcc/include/options.h"
#include "tools/qfcc/include/qfcc.h"
#include "tools/qfcc/include/reloc.h"
#include "tools/qfcc/include/statements.h"
#include "tools/qfcc/include/strpool.h"
#include "tools/qfcc/include/symtab.h"
#include "tools/qfcc/include/type.h"
#include "tools/qfcc/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_space_stuff (qfo, pr->debug_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_init_debug_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_debug;
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_debug_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_init_debug_space (qfo, &def, &reloc, &qfo->spaces[qfo_debug_space],
pr->debug_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);
case qfos_debug:
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:
case qfos_debug:
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_alias: //XXX
case ty_basic:
// field, pointer and function types store their basic type in
// the same location.
return type_def->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_alias:
return get_type_size (qfo, type_def->alias.aux_type);
case ty_basic:
// field, pointer and function types store their basic type in
// the same location.
return pr_type_size[type_def->type];
case ty_struct:
for (i = size = 0; i < type_def->strct.num_fields; i++)
size += get_type_size (qfo, type_def->strct.fields[i].type);
return size;
case ty_union:
for (i = size = 0; i < type_def->strct.num_fields; i++) {
int s;
s = get_type_size (qfo, type_def->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->array.size
* get_type_size (qfo, type_def->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_alias:
return get_type_alignment_log (qfo, type_def->alias.aux_type);
case ty_basic:
// field, pointer and function types store their basic type in
// the same location.
return qfo_log2 (ev_types[type_def->type]->alignment);
case ty_struct:
case ty_union:
for (i = alignment = 0; i < type_def->strct.num_fields; i++) {
qfot_var_t *field = type_def->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->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_alias) {
type = QFO_POINTER (qfo, qfo_type_space, qfot_type_t,
type->alias.aux_type);
}
if (type->meta != ty_basic || type->type != ev_func)
return;
df->numparms = num_params = type->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->func.param_types[i]);
}
}
static void
qfo_def_to_ddef (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_def_to_prdef (qfo_t *qfo, const qfo_def_t *def, pr_def_t *prdef)
{
prdef->type = get_def_type (qfo, def->type);
prdef->size = get_type_size (qfo, def->type);
prdef->ofs = def->offset;
prdef->name = def->name;
prdef->type_encoding = def->type;
}
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));
}
static int
qfo_def_compare (const void *i1, const void *i2, void *d)
{
__auto_type defs = (const qfo_def_t *) d;
unsigned ind1 = *(unsigned *) i1;
unsigned ind2 = *(unsigned *) i2;
const qfo_def_t *def1 = defs + ind1;
const qfo_def_t *def2 = defs + ind2;
return def1->offset - def2->offset;
}
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;
pr_type_t *xdef_data;
dprograms_t *progs;
qfo_def_t *types_def = 0;
qfo_def_t *xdefs_def = 0;
unsigned i, j;
unsigned near_data_size = 0;
unsigned locals_size = 0;
int locals_start;
int type_encodings_start;
int xdefs_start;
unsigned big_locals = 0;
int big_func = 0;
pr_xdefs_t *xdefs = 0;
xdef_t *xdef;
unsigned *def_indices;
unsigned *far_def_indices;
unsigned *field_def_indices;
*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;
//ddef offsets are 16 bits so the ddef ofs will likely be invalid
//thus it will be forced invalid and the true offset written to the
//.xdefs array in the progs file
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;
type_encodings_start = progs->numglobals;
progs->numglobals += qfo->spaces[qfo_type_space].data_size;
progs->numglobals = RUP (progs->numglobals, type_xdef.alignment);
xdefs_start = progs->numglobals;
progs->numglobals += progs->numglobaldefs * type_size (&type_xdef);
progs->numglobals += progs->numfielddefs * type_size (&type_xdef);
progs->entityfields = qfo->spaces[qfo_entity_space].data_size;
// qfo_debug_space does not go in the progs file
*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);
def_indices = alloca ((progs->numglobaldefs + progs->numfielddefs)
* sizeof (*def_indices));
far_def_indices = def_indices + qfo->spaces[qfo_near_data_space].num_defs;
field_def_indices = def_indices + progs->numglobaldefs;
for (unsigned i = 0; i < qfo->spaces[qfo_near_data_space].num_defs; i++) {
def_indices[i] = i;
}
for (unsigned i = 0; i < qfo->spaces[qfo_far_data_space].num_defs; i++) {
far_def_indices[i] = i;
}
for (unsigned i = 0; i < qfo->spaces[qfo_entity_space].num_defs; i++) {
field_def_indices[i] = i;
}
qsort_r (def_indices, qfo->spaces[qfo_near_data_space].num_defs,
sizeof (unsigned), qfo_def_compare,
qfo->spaces[qfo_near_data_space].defs);
qsort_r (far_def_indices, qfo->spaces[qfo_far_data_space].num_defs,
sizeof (unsigned), qfo_def_compare,
qfo->spaces[qfo_far_data_space].defs);
qsort_r (field_def_indices, qfo->spaces[qfo_entity_space].num_defs,
sizeof (unsigned), qfo_def_compare,
qfo->spaces[qfo_entity_space].defs);
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 = globals + type_encodings_start;
xdef_data = globals + xdefs_start;
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++) {
unsigned ind = def_indices[i];
qfo_def_t *def = qfo->spaces[qfo_near_data_space].defs + ind;
const char *defname = QFO_GETSTR (qfo, def->name);
if (!strcmp (defname, ".type_encodings"))
types_def = def;
if (!strcmp (defname, ".xdefs"))
xdefs_def = def;
qfo_def_to_ddef (qfo, def, globaldefs++);
}
for (i = 0; i < qfo->spaces[qfo_far_data_space].num_defs; i++) {
unsigned ind = far_def_indices[i];
qfo_def_t *def = qfo->spaces[qfo_far_data_space].defs + ind;
def->offset += far_data - globals;
qfo_def_to_ddef (qfo, def, globaldefs);
// the correct offset will be written to the far data space
globaldefs->ofs = -1;
globaldefs++;
}
for (i = 0; i < qfo->spaces[qfo_type_space].num_defs; i++) {
qfo->spaces[qfo_type_space].defs[i].offset += type_encodings_start;
}
for (i = 0; i < qfo->spaces[qfo_entity_space].num_defs; i++) {
unsigned ind = field_def_indices[i];
qfo_def_to_ddef (qfo, qfo->spaces[qfo_entity_space].defs + ind,
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_encodings_start;
encodings->size = qfo->spaces[qfo_type_space].data_size;
}
if (xdefs_def) {
xdefs = (pr_xdefs_t *) &globals[xdefs_def->offset];
xdef = (xdef_t *) xdef_data;
xdefs->xdefs = xdefs_start;
xdefs->num_xdefs = progs->numglobaldefs + progs->numfielddefs;
for (i = 0; i < qfo->spaces[qfo_near_data_space].num_defs;
i++, xdef++) {
qfo_def_t *def = qfo->spaces[qfo_near_data_space].defs + i;
xdef->type = def->type + type_encodings_start;
xdef->ofs = def->offset;
}
for (i = 0; i < qfo->spaces[qfo_far_data_space].num_defs;
i++, xdef++) {
qfo_def_t *def = qfo->spaces[qfo_far_data_space].defs + i;
xdef->type = def->type + type_encodings_start;
xdef->ofs = def->offset;
}
for (i = 0; i < qfo->spaces[qfo_entity_space].num_defs;
i++, xdef++) {
qfo_def_t *def = qfo->spaces[qfo_entity_space].defs + i;
xdef->type = def->type + type_encodings_start;
xdef->ofs = def->offset;
}
}
// 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 field defs\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);
if (xdefs) {
printf (" %6i extended defs\n",
xdefs->num_xdefs * type_size (&type_xdef));
}
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;
pr_def_t *locals, *ld, *debug_defs;
pr_type_t *debug_data;
*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;
sym->num_debug_defs = qfo->spaces[qfo_debug_space].num_defs;
sym->debug_data_size = qfo->spaces[qfo_debug_space].data_size;
*size += sym->num_auxfunctions * sizeof (pr_auxfunction_t);
*size += sym->num_linenos * sizeof (pr_lineno_t);
*size += sym->num_locals * sizeof (pr_def_t);
*size += sym->num_debug_defs * sizeof (pr_def_t);
*size += sym->debug_data_size * sizeof (pr_type_t);
sym = realloc (sym, *size);
auxfuncs = (pr_auxfunction_t *)(sym + 1);
linenos = (pr_lineno_t *)(auxfuncs + sym->num_auxfunctions);
locals = (pr_def_t *)(linenos + sym->num_linenos);
debug_defs = locals + sym->num_locals;
debug_data = (pr_type_t *)(debug_defs + sym->num_debug_defs);
sym->auxfunctions = (char *) auxfuncs - (char *) sym;
sym->linenos = (char *) linenos - (char *) sym;
sym->locals = (char *) locals - (char *) sym;
sym->debug_defs = (char *) debug_defs - (char *) sym;
sym->debug_data = (char *) debug_data - (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++, def++, ld++) {
qfo_def_to_prdef (qfo, def, ld);
}
}
aux->num_locals = num_locals;
//FIXME check type
type = QFO_POINTER (qfo, qfo_type_space, qfot_type_t, func->type);
if (type->meta == ty_alias) {
type = QFO_POINTER (qfo, qfo_type_space, qfot_type_t,
type->alias.aux_type);
}
aux->return_type = type->func.return_type;
aux++;
}
memcpy (linenos, qfo->lines, qfo->num_lines * sizeof (pr_lineno_t));
for (i = 0; i < sym->num_debug_defs; i++) {
qfo_def_t *def = &qfo->spaces[qfo_debug_space].defs[i];
pr_def_t *prdef = &debug_defs[i];
qfo_def_to_prdef (qfo, def, prdef);
}
memcpy (debug_data, qfo->spaces[qfo_debug_space].d.data,
sym->debug_data_size * sizeof (*debug_data));
return sym;
}