quakeforge/libs/gib/gib_vars.c
Bill Currie dbd3d6502a Nuke qboolean from orbit
I never liked it, but with C2x coming out, it's best to handle bools
properly. I haven't gone through all the uses of int as bool (I'll leave
that for fixing when I encounter them), but this gets QF working with
both c2x (really, gnu2x because of raw strings).
2023-06-13 18:06:11 +09:00

319 lines
7.6 KiB
C

/*
#FILENAME#
#DESCRIPTION#
Copyright (C) 2002 #AUTHOR#
Author: #AUTHOR#
Date: #DATE#
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
#include <string.h>
#include <stdlib.h>
#include "QF/dstring.h"
#include "QF/va.h"
#include "QF/hash.h"
#include "QF/cvar.h"
#include "gib_parse.h"
#include "gib_vars.h"
hashtab_t *gib_globals = 0;
hashtab_t *gib_domains = 0;
static gib_var_t *
GIB_Var_New (const char *key)
{
gib_var_t *new = calloc (1, sizeof (gib_var_t));
new->array = calloc (1, sizeof (struct gib_varray_s));
new->key = strdup (key);
return new;
}
static const char *
GIB_Var_Get_Key (const void *ele, void *ptr)
{
return ((gib_var_t *) ele)->key;
}
static void
GIB_Var_Free (void *ele, void *ptr)
{
unsigned int i;
gib_var_t *l = (gib_var_t *) ele;
for (i = 0; i < l->size; i++) {
if (l->array[i].value)
dstring_delete (l->array[i].value);
if (l->array[i].leaves)
Hash_DelTable (l->array[i].leaves);
}
free (l->array);
free ((void *) l->key);
free (l);
}
gib_var_t *
GIB_Var_Get (hashtab_t * first, hashtab_t * second, const char *key)
{
gib_var_t *var;
if (first && (var = Hash_Find (first, key)))
return var;
else if (second && (var = Hash_Find (second, key)))
return var;
else
return 0;
}
/* Alters key, but restores it */
gib_var_t *
GIB_Var_Get_Complex (hashtab_t ** first, hashtab_t ** second, char *key,
unsigned int *ind, bool create)
{
static hashtab_t *zero = 0;
unsigned int i, n, index = 0, len, start;
gib_var_t *var = 0;
len = strlen(key);
for (start = i = 0; i <= len; i++) {
if (key[i] == '.' || key[i] == 0) {
index = 0;
key[i] = 0;
n = 0;
if (i && key[i - 1] == ']')
for (n = i - 1; n; n--)
if (key[n] == '[') {
index = atoi (key + n + 1);
key[n] = 0;
break;
}
if (!(var = GIB_Var_Get (*first, *second, key+start)) && create) {
var = GIB_Var_New (key+start);
if (!*first)
*first = Hash_NewTable (256, GIB_Var_Get_Key,
GIB_Var_Free, 0, 0);
Hash_Add (*first, var);
}
// We are done looking up/creating var, fix up key
if (n)
key[n] = '[';
if (i < len)
key[i] = '.';
// Give up
if (!var)
return 0;
else if (index >= var->size) {
if (create) {
var->array = realloc (var->array,
(index + 1) * sizeof (struct gib_varray_s));
memset (var->array + var->size, 0,
(index + 1 - var->size) * sizeof (struct gib_varray_s));
var->size = index + 1;
} else
return 0;
}
second = &zero;
first = &var->array[index].leaves;
start = i+1;
}
}
if (!var->array[index].value)
var->array[index].value = dstring_newstr ();
*ind = index;
return var;
}
/* Mangles the hell out of key */
gib_var_t *
GIB_Var_Get_Very_Complex (hashtab_t ** first, hashtab_t ** second, dstring_t *key, unsigned int start,
unsigned int *ind, bool create)
{
static hashtab_t *zero = 0;
hashtab_t *one = *first, *two = *second;
unsigned int i, index = 0, index2 = 0, n, protect, varstartskip;
gib_var_t *var = 0;
cvar_t *cvar;
char c;
const char *str;
bool done = false;
for (i = start, protect = 0; !done; i++) {
if (key->str[i] == '.' || key->str[i] == 0) {
index = 0;
if (!key->str[i])
done = true;
key->str[i] = 0;
if (i && key->str[i - 1] == ']')
for (n = i-1; n; n--)
if (key->str[n] == '[') {
index = atoi (key->str + n + 1);
key->str[n] = 0;
break;
}
if (!(var = GIB_Var_Get (*first, *second, key->str+start))) {
if (create) {
var = GIB_Var_New (key->str+start);
if (!*first)
*first = Hash_NewTable (256, GIB_Var_Get_Key,
GIB_Var_Free, 0, 0);
Hash_Add (*first, var);
} else
return 0;
}
if (index >= var->size) {
if (create) {
var->array = realloc (var->array,
(index + 1) * sizeof (struct gib_varray_s));
memset (var->array + var->size, 0,
(index + 1 - var->size) * sizeof (struct gib_varray_s));
var->size = index + 1;
} else
return 0;
}
second = &zero;
first = &var->array[index].leaves;
start = i+1;
} else if (i >= protect && (key->str[i] == '$' || key->str[i] == '#')) {
n = i;
if (GIB_Parse_Match_Var (key->str, &i))
return 0;
c = key->str[i];
varstartskip = (c == '}');
key->str[i] = 0;
if ((var = GIB_Var_Get_Very_Complex (&one, &two, key, n+1+varstartskip, &index2, create))) {
if (key->str[n] == '#')
str = va (0, "%u", var->size);
else
str = var->array[index2].value->str;
key->str[i] = c;
dstring_replace (key, n, i-n+varstartskip, str, strlen (str));
protect = n+strlen(str);
} else if (key->str[n] == '#') {
key->str[i] = c;
dstring_replace (key, n, i-n+varstartskip, "0", 1);
protect = n+1;
} else if ((cvar = Cvar_FindVar (key->str+n+1+varstartskip))) {
const char *cvar_str = Cvar_VarString (cvar);
key->str[i] = c;
dstring_replace (key, n, i-n+varstartskip, cvar_str,
strlen (cvar_str));
protect = n+strlen(cvar_str);
} else {
key->str[i] = c;
dstring_snip (key, n, n-i+varstartskip);
protect = 0;
}
i = n;
}
}
if (!var->array[index].value)
var->array[index].value = dstring_newstr ();
*ind = index;
return var;
}
void
GIB_Var_Assign (gib_var_t * var, unsigned int index, dstring_t ** values,
unsigned int numv, bool shrink)
{
unsigned int i, len;
// Now, expand the array to the correct size
len = numv + index;
if (len >= var->size) {
var->array = realloc (var->array, len * sizeof (struct gib_varray_s));
memset (var->array + var->size, 0,
(len - var->size) * sizeof (struct gib_varray_s));
var->size = len;
} else if (len < var->size && shrink) {
for (i = len; i < var->size; i++) {
if (var->array[i].value)
dstring_delete (var->array[i].value);
if (var->array[i].leaves)
Hash_DelTable (var->array[i].leaves);
}
var->array = realloc (var->array, len * sizeof (struct gib_varray_s));
var->size = len;
}
for (i = 0; i < numv; i++) {
if (var->array[i + index].value)
dstring_clearstr (var->array[i + index].value);
else
var->array[i + index].value = dstring_newstr ();
dstring_appendstr (var->array[i + index].value, values[i]->str);
}
}
static const char *
GIB_Domain_Get_Key (const void *ele, void *ptr)
{
return ((gib_domain_t *) ele)->name;
}
static void
GIB_Domain_Free (void *ele, void *ptr)
{
gib_domain_t *l = (gib_domain_t *) ele;
Hash_DelTable (l->vars);
free ((void *) l->name);
free (l);
}
hashtab_t *
GIB_Domain_Get (const char *name)
{
gib_domain_t *d = Hash_Find (gib_domains, name);
if (!d) {
d = calloc (1, sizeof (gib_domain_t));
d->name = strdup (name);
d->vars = Hash_NewTable (1024, GIB_Var_Get_Key, GIB_Var_Free, 0, 0);
Hash_Add (gib_domains, d);
}
return d->vars;
}
hashtab_t *
GIB_Var_Hash_New (void)
{
return Hash_NewTable (1024, GIB_Var_Get_Key, GIB_Var_Free, 0, 0);
}
void
GIB_Var_Init (void)
{
gib_globals = Hash_NewTable (1024, GIB_Var_Get_Key, GIB_Var_Free, 0, 0);
gib_domains = Hash_NewTable (1024, GIB_Domain_Get_Key,
GIB_Domain_Free, 0, 0);
}